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1]Resistance is a ability to ward off diseases, It involves a netw.pdf![1]Resistance is a ability to ward off diseases, It involves a netw.pdf](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)
1]
Resistance is a ability to ward off diseases, It involves a network of organs, cells, and molecules
that defend the body from invaders of all kinds, including cold viruses such as rhinovirus and
susceptibility luck of resistance to a diseases
2]
Nonspecific resistance is defenses against any pathogen.
First line of defense involves physical barriers such as skin and mucus membrane and a first line
of defense against intruders such as pathogens
Mechanical factor
Epidermis consists of tightly packed cells with keratin, a protective protein waterproof
Saliva washes microbes off teeth and gums
Lacrimal apparatus washes eye, removes microbes
Mucus traps microbes moved up and out by ciliary escalator
Chemical factors
Fungistatic fatty acid in sebum
Sweat washes off skin contains lysozyme
Lysozyme in perspiration, tears, saliva and tissue fluids
Transferrins in blood bind iron removing this nutrient
Nitrous oxide inhibits ATP production of microbes
3]
Define phagocytosis and include the stages of adherence and ingestion
Phagocytosis is a process of ingestion and digestion by cells, bacteria, bits of necrotic tissue,
foreign particles.
Solution
1]
Resistance is a ability to ward off diseases, It involves a network of organs, cells, and molecules
that defend the body from invaders of all kinds, including cold viruses such as rhinovirus and
susceptibility luck of resistance to a diseases
2]
Nonspecific resistance is defenses against any pathogen.
First line of defense involves physical barriers such as skin and mucus membrane and a first line
of defense against intruders such as pathogens
Mechanical factor
Epidermis consists of tightly packed cells with keratin, a protective protein waterproof
Saliva washes microbes off teeth and gums
Lacrimal apparatus washes eye, removes microbes
Mucus traps microbes moved up and out by ciliary escalator
Chemical factors
Fungistatic fatty acid in sebum
Sweat washes off skin contains lysozyme
Lysozyme in perspiration, tears, saliva and tissue fluids
Transferrins in blood bind iron removing this nutrient
Nitrous oxide inhibits ATP production of microbes
3]
Define phagocytosis and include the stages of adherence and ingestion
Phagocytosis is a process of ingestion and digestion by cells, bacteria, bits of necrotic tissue,
foreign particles..
1.If we want to add a new Crow class,first of all we have to observe.pdf
1.If we want to add a new Crow class,first of all we have to observe what is the type of Crow
class.Crow is a type of Bird.As is having the features of the Bird we have to make the Crow class
as a subclass to Bird class.
2.Actually we kept the bodyTemperature variable in Reptile class.But we know every living
thing has a body temperature.So we have to use that variable in the super class or parent class of
all the classes.
So we have to put that bodyTemperature varuable in the animal class(This is the super class of
all te classes here).So that all animals will have bodytemperature.Means the subclasses of the
Animal class like Reptile class and Bird class will have body temperature.
If we use bodyTemperature in Reptile class.We can use it only in the Reptile class and its
subclasses.We can use it the Bird Class and its sub classes.
3)If we want to make an Ostrich class as a subclass to Bird class,and also if we want to disable
the fly() method of Bird class in Ostrich class we have to override the fly() method in the Ostrich
class and we dont have to provide any implementation for that overridden fly() method .So that if
we call the fly() method in Ostrich it will not do anything or we can write
UnsupportedOperationException.
class Ostrich extends Bird
{
@Override
fly()
{
}
}
_______________( OR )___________________
class Ostrich extends Bird
{
@Override
fly()
{
UnsupportedOperationException();
}
}
_________________________________________
Solution
1.If we want to add a new Crow class,first of all we have to observe what is the type of Crow
class.Crow is a type of Bird.As is having the features of the Bird we have to make the Crow class
as a subclass to Bird class.
2.Actually we kept the bodyTemperature variable in Reptile class.But we know every living
thing has a body temperature.So we have to use that variable in the super class or parent class of
all the classes.
So we have to put that bodyTemperature varuable in the animal class(This is the super class of
all te classes here).So that all animals will have bodytemperature.Means the subclasses of the
Animal class like Reptile class and Bird class will have body temperature.
If we use bodyTemperature in Reptile class.We can use it only in the Reptile class and its
subclasses.We can use it the Bird Class and its sub classes.
3)If we want to make an Ostrich class as a subclass to Bird class,and also if we want to disable
the fly() method of Bird class in Ostrich class we have to override the fly() method in the Ostrich
class and we dont have to provide any implementation for that overridden fly() method .So that if
we call the fly() method in Ostrich it will not do anything or we can write
UnsupportedOperationException.
class Ostrich extends Bird
{
@Override
fly()
{
}
}
_______________( OR )___________________
class Ostrich extends Bird
{
@Override
fly()
{
UnsupportedOperationException();
}
}
_________________________________________.
1. Assignment1.java public class Assignment1 { public sta.pdf
1.
//Assignment1.java
public class Assignment1 {
public static void main(String[] args) {
//integer variable
int intNumber=15;
//double variable
double doubleNumber=6;
//declare ratio of type double
double ratio;
//Divide the integer by integer yields an integer value
//even the intNumber=15 divided by 6, the result is 2
//since decimal value,0.5 is discarded from 2.5.
ratio=intNumber/6;
System.out.println(\"intNumber = \"+intNumber);
System.out.println(\"doubleNumber = \"+doubleNumber);
//print ratio value ,2 to console
System.out.println(\"ratio=intNumber/6 = \"+ratio);
//Re-assignment
//Divide the integer by double yields an double value
//2.5 is double value stored in a double variable, ratio
ratio=intNumber/doubleNumber;
//print ration to console
System.out.println(\"ratio=intNumber/doubleNumber=\"+ratio);
}
}//end of class Assignment1
-------------------------------------------------------------------------------------------------------------------
2.
//Assignment2.java
public class Assignment2 {
public static void main(String[] args) {
//since the ascii values of a =97
//and b=98,a+b=195 is printed
System.out.println(\'a\'+\'b\');
//double quotation is string
//value and converts the characters
//to string
System.out.println(\" \"+\'a\'+\'b\');
//even double quotation is a string
//the paranthesis separates the character
// values from the string and sum the
//a+b=195 to console
System.out.println(\" \"+(\'a\'+\'b\'));
}
}
-------------------------------------------------------------------------------------------------------------------
3.
//Assignment3.java
public class Assignment3 {
public static void main(String[] args) {
//integer variable
int intNumber=15;
//double variable
double doubleNumber=6;
//since the string \"These are numbers: \" will not sum the values
//intNumber and doubleNumber so they print as individual values along with string
System.out.println(\"These are numbers: \" + intNumber + doubleNumber);
//here intNumber and doubleNumber are separatead by paranthesis
//so they become added up and print the result to console.
System.out.println(\"These are numbers: \" + (intNumber + doubleNumber));
}
}
----------------------------------------------------------------------------------------------------------------
4.
//Assignment4.java
public class Assignment4 {
public static void main(String[] args) {
//integer variable
int intNumber=15;
//double variable
double doubleNumber=6;
// in the paranthesis, the multiplucation got prioority over / and +
//intNumber*doubleNumber=90.0, then 5/90=0.05, .05 is dicarded
//25+0+1=26 will be printed
System.out.println(\"Formula1: \" + (25 +5/intNumber*doubleNumber + 1));
//Preference of parenthesis from right to left
//(doubleNumber+1)=6+1=7
//(25+5)=30
// The division operator gets percedence from left to right
// then * got precedence
//30/15*(6+1)=30/15*7=2*7=14
System.out.println(((25+5)/intNumber*(doubleNumber + 1)));
}
}
Solution
1.
//Assignment1.java
public class Assignment1 {
pub.
1. Sherwood Anderson known for his bestseller Dark Laughter2.Thei.pdf
1. Sherwood Anderson known for his bestseller Dark Laughter
2.Their names are not given. Stories takh mainly about Mrs. Sommers\' rather than her children..
Solution
1. Sherwood Anderson known for his bestseller Dark Laughter
2.Their names are not given. Stories takh mainly about Mrs. Sommers\' rather than her children...
(41)B. Mitochondria - cellular respiration(42)B. adhesive junc.pdf
(41)
B. Mitochondria - cellular respiration
(42)
B. adhesive junctions
Adherens junctions are protein complexes that occur at cell–cell junctions which tightly bind
cells together in a tissue layer
(43)
C. communicating junctions
communicating junctions enable communication between neighboring cells via specialized
proteins. They are also called gap junctions which allows various molecules, ions and electrical
impulses to directly pass through a regulated gate between cells.
(44)
C. Selectively permeable
Cell membranes are selectively permeable, allows certain molecules or ions to pass through it
(45)
A. Water
Osmosis is the net movement of water molecules through a semi-permeable membrane into a
region of higher solute concentration from low solute concentration.
(46)
B. Shriveling
Cell shrinks as it loses water
(47)
D. Somatic, somatic
Solution
(41)
B. Mitochondria - cellular respiration
(42)
B. adhesive junctions
Adherens junctions are protein complexes that occur at cell–cell junctions which tightly bind
cells together in a tissue layer
(43)
C. communicating junctions
communicating junctions enable communication between neighboring cells via specialized
proteins. They are also called gap junctions which allows various molecules, ions and electrical
impulses to directly pass through a regulated gate between cells.
(44)
C. Selectively permeable
Cell membranes are selectively permeable, allows certain molecules or ions to pass through it
(45)
A. Water
Osmosis is the net movement of water molecules through a semi-permeable membrane into a
region of higher solute concentration from low solute concentration.
(46)
B. Shriveling
Cell shrinks as it loses water
(47)
D. Somatic, somatic.
The electrons which are involved in bond formatio.pdf
The electrons which are involved in bond formation between atoms are found in the
outermost shell (sometimes in the next to the outer-most shell) of the neutral atom; these are
called VALENCE ELECTRONS. The atoms of elements which have only one or two electrons
in their outermost shells (active shells) may lose electrons when they combine with atoms of
other elements. An atom which has lost one or more valence electrons possesses a positive
charge, and is called a POSITIVE ION. The sodium atom loses its one valence electron and
acquires a +1 charge when it enters into chemical combination with an atom of an element such
as chlorine. The magnesium atom may lose its two valence electrons and assume a +2 charge.
Na Na+ + e- The Na symbol to the left of the arrow represents a stable sodium atom while the
Na+ symbol to the right of the arrow represents an unstable sodium ion which has had a single
electron removed. Mg Mg++ + 2e- The Mg symbol to the left of the arrow represents a stable
magnesium atom while the Mg++ symbol to the right of the arrow represents an unstable
magnesium ion which has had two electrons removed. The smaller the number of valence
electrons in the atom, the greater the tendency of the element to lose electrons and thus form
positive ions during chemical combination with atoms of other elements. The energy required to
remove an electron from a neutral atom to form a positive ion is called the IONIZATION
POTENTIAL of the atom. Some metals have small ionization potentials and readily form
positive ions. The nonmetals, which have more electrons in their outer shells than the metals,
have large ionization potentials and show little tendency toward the formation of positive ions.
Atoms which lack one or two electrons of having an outermost shell of eight electrons readily
gain sufficient electrons from certain other atoms, such as sodium and magnesium, to make a full
compliment of eight electrons in the outside shell. Neutral atoms become NEGATIVE IONS by
gaining electrons. The nonmetals, such as Fluorine (F), Chlorine (Cl), Bromine (Br), Iodine (I),
Oxygen (O), Nitrogen (N) and Sulfur (S), readily form negative ions. Cl + e- Cl- Chlorine,
when in its stable form, possesses seven valence electrons and therefore has the ability to gain
one electron (as represented to the left of the arrow) giving it a negative charge of one when in
its unstable ionic form (as represented to the right of the arrow above). S + 2e- S-2 Sulfur, when
in its stable form, possesses six valence electrons and therefore has the ability to gain two
electrons giving it a negative charge of two when in its unstable ionic form. The attraction of a
neutral atom for electrons is known as its ELECTRON AFFINITY. The nonmetals have high
electron affinities and the metals have very low electron affinities. Thus, mainly the nonmetals
tend to form negative ions during chemical combination. When a positive ion and a negative ion
are brought close together, strong electr.
Methylene blue is polar so a non polar mobile pha.pdf
Methylene blue is polar so a non polar mobile phase will make mobility poor due to
poor interactions
Solution
Methylene blue is polar so a non polar mobile phase will make mobility poor due to
poor interactions.
KCl NH3 Ar note KCl is ionic solid, has a v.pdf
KCl > NH3 > Ar note: KCl is ionic solid, has a very high melting point. NH3 is
molecular solid. But it involves hydrogen bonds and thus has a relatively higher mp than
nonploar molecular solid Ar(s) that only has very weak London dispersion force.
Solution
KCl > NH3 > Ar note: KCl is ionic solid, has a very high melting point. NH3 is
molecular solid. But it involves hydrogen bonds and thus has a relatively higher mp than
nonploar molecular solid Ar(s) that only has very weak London dispersion force..
Recommended
1]Resistance is a ability to ward off diseases, It involves a netw.pdf
1]
Resistance is a ability to ward off diseases, It involves a network of organs, cells, and molecules
that defend the body from invaders of all kinds, including cold viruses such as rhinovirus and
susceptibility luck of resistance to a diseases
2]
Nonspecific resistance is defenses against any pathogen.
First line of defense involves physical barriers such as skin and mucus membrane and a first line
of defense against intruders such as pathogens
Mechanical factor
Epidermis consists of tightly packed cells with keratin, a protective protein waterproof
Saliva washes microbes off teeth and gums
Lacrimal apparatus washes eye, removes microbes
Mucus traps microbes moved up and out by ciliary escalator
Chemical factors
Fungistatic fatty acid in sebum
Sweat washes off skin contains lysozyme
Lysozyme in perspiration, tears, saliva and tissue fluids
Transferrins in blood bind iron removing this nutrient
Nitrous oxide inhibits ATP production of microbes
3]
Define phagocytosis and include the stages of adherence and ingestion
Phagocytosis is a process of ingestion and digestion by cells, bacteria, bits of necrotic tissue,
foreign particles.
Solution
1]
Resistance is a ability to ward off diseases, It involves a network of organs, cells, and molecules
that defend the body from invaders of all kinds, including cold viruses such as rhinovirus and
susceptibility luck of resistance to a diseases
2]
Nonspecific resistance is defenses against any pathogen.
First line of defense involves physical barriers such as skin and mucus membrane and a first line
of defense against intruders such as pathogens
Mechanical factor
Epidermis consists of tightly packed cells with keratin, a protective protein waterproof
Saliva washes microbes off teeth and gums
Lacrimal apparatus washes eye, removes microbes
Mucus traps microbes moved up and out by ciliary escalator
Chemical factors
Fungistatic fatty acid in sebum
Sweat washes off skin contains lysozyme
Lysozyme in perspiration, tears, saliva and tissue fluids
Transferrins in blood bind iron removing this nutrient
Nitrous oxide inhibits ATP production of microbes
3]
Define phagocytosis and include the stages of adherence and ingestion
Phagocytosis is a process of ingestion and digestion by cells, bacteria, bits of necrotic tissue,
foreign particles..
1.If we want to add a new Crow class,first of all we have to observe.pdf
1.If we want to add a new Crow class,first of all we have to observe what is the type of Crow
class.Crow is a type of Bird.As is having the features of the Bird we have to make the Crow class
as a subclass to Bird class.
2.Actually we kept the bodyTemperature variable in Reptile class.But we know every living
thing has a body temperature.So we have to use that variable in the super class or parent class of
all the classes.
So we have to put that bodyTemperature varuable in the animal class(This is the super class of
all te classes here).So that all animals will have bodytemperature.Means the subclasses of the
Animal class like Reptile class and Bird class will have body temperature.
If we use bodyTemperature in Reptile class.We can use it only in the Reptile class and its
subclasses.We can use it the Bird Class and its sub classes.
3)If we want to make an Ostrich class as a subclass to Bird class,and also if we want to disable
the fly() method of Bird class in Ostrich class we have to override the fly() method in the Ostrich
class and we dont have to provide any implementation for that overridden fly() method .So that if
we call the fly() method in Ostrich it will not do anything or we can write
UnsupportedOperationException.
class Ostrich extends Bird
{
@Override
fly()
{
}
}
_______________( OR )___________________
class Ostrich extends Bird
{
@Override
fly()
{
UnsupportedOperationException();
}
}
_________________________________________
Solution
1.If we want to add a new Crow class,first of all we have to observe what is the type of Crow
class.Crow is a type of Bird.As is having the features of the Bird we have to make the Crow class
as a subclass to Bird class.
2.Actually we kept the bodyTemperature variable in Reptile class.But we know every living
thing has a body temperature.So we have to use that variable in the super class or parent class of
all the classes.
So we have to put that bodyTemperature varuable in the animal class(This is the super class of
all te classes here).So that all animals will have bodytemperature.Means the subclasses of the
Animal class like Reptile class and Bird class will have body temperature.
If we use bodyTemperature in Reptile class.We can use it only in the Reptile class and its
subclasses.We can use it the Bird Class and its sub classes.
3)If we want to make an Ostrich class as a subclass to Bird class,and also if we want to disable
the fly() method of Bird class in Ostrich class we have to override the fly() method in the Ostrich
class and we dont have to provide any implementation for that overridden fly() method .So that if
we call the fly() method in Ostrich it will not do anything or we can write
UnsupportedOperationException.
class Ostrich extends Bird
{
@Override
fly()
{
}
}
_______________( OR )___________________
class Ostrich extends Bird
{
@Override
fly()
{
UnsupportedOperationException();
}
}
_________________________________________.
1. Assignment1.java public class Assignment1 { public sta.pdf
1.
//Assignment1.java
public class Assignment1 {
public static void main(String[] args) {
//integer variable
int intNumber=15;
//double variable
double doubleNumber=6;
//declare ratio of type double
double ratio;
//Divide the integer by integer yields an integer value
//even the intNumber=15 divided by 6, the result is 2
//since decimal value,0.5 is discarded from 2.5.
ratio=intNumber/6;
System.out.println(\"intNumber = \"+intNumber);
System.out.println(\"doubleNumber = \"+doubleNumber);
//print ratio value ,2 to console
System.out.println(\"ratio=intNumber/6 = \"+ratio);
//Re-assignment
//Divide the integer by double yields an double value
//2.5 is double value stored in a double variable, ratio
ratio=intNumber/doubleNumber;
//print ration to console
System.out.println(\"ratio=intNumber/doubleNumber=\"+ratio);
}
}//end of class Assignment1
-------------------------------------------------------------------------------------------------------------------
2.
//Assignment2.java
public class Assignment2 {
public static void main(String[] args) {
//since the ascii values of a =97
//and b=98,a+b=195 is printed
System.out.println(\'a\'+\'b\');
//double quotation is string
//value and converts the characters
//to string
System.out.println(\" \"+\'a\'+\'b\');
//even double quotation is a string
//the paranthesis separates the character
// values from the string and sum the
//a+b=195 to console
System.out.println(\" \"+(\'a\'+\'b\'));
}
}
-------------------------------------------------------------------------------------------------------------------
3.
//Assignment3.java
public class Assignment3 {
public static void main(String[] args) {
//integer variable
int intNumber=15;
//double variable
double doubleNumber=6;
//since the string \"These are numbers: \" will not sum the values
//intNumber and doubleNumber so they print as individual values along with string
System.out.println(\"These are numbers: \" + intNumber + doubleNumber);
//here intNumber and doubleNumber are separatead by paranthesis
//so they become added up and print the result to console.
System.out.println(\"These are numbers: \" + (intNumber + doubleNumber));
}
}
----------------------------------------------------------------------------------------------------------------
4.
//Assignment4.java
public class Assignment4 {
public static void main(String[] args) {
//integer variable
int intNumber=15;
//double variable
double doubleNumber=6;
// in the paranthesis, the multiplucation got prioority over / and +
//intNumber*doubleNumber=90.0, then 5/90=0.05, .05 is dicarded
//25+0+1=26 will be printed
System.out.println(\"Formula1: \" + (25 +5/intNumber*doubleNumber + 1));
//Preference of parenthesis from right to left
//(doubleNumber+1)=6+1=7
//(25+5)=30
// The division operator gets percedence from left to right
// then * got precedence
//30/15*(6+1)=30/15*7=2*7=14
System.out.println(((25+5)/intNumber*(doubleNumber + 1)));
}
}
Solution
1.
//Assignment1.java
public class Assignment1 {
pub.
1. Sherwood Anderson known for his bestseller Dark Laughter2.Thei.pdf
1. Sherwood Anderson known for his bestseller Dark Laughter
2.Their names are not given. Stories takh mainly about Mrs. Sommers\' rather than her children..
Solution
1. Sherwood Anderson known for his bestseller Dark Laughter
2.Their names are not given. Stories takh mainly about Mrs. Sommers\' rather than her children...
(41)B. Mitochondria - cellular respiration(42)B. adhesive junc.pdf
(41)
B. Mitochondria - cellular respiration
(42)
B. adhesive junctions
Adherens junctions are protein complexes that occur at cell–cell junctions which tightly bind
cells together in a tissue layer
(43)
C. communicating junctions
communicating junctions enable communication between neighboring cells via specialized
proteins. They are also called gap junctions which allows various molecules, ions and electrical
impulses to directly pass through a regulated gate between cells.
(44)
C. Selectively permeable
Cell membranes are selectively permeable, allows certain molecules or ions to pass through it
(45)
A. Water
Osmosis is the net movement of water molecules through a semi-permeable membrane into a
region of higher solute concentration from low solute concentration.
(46)
B. Shriveling
Cell shrinks as it loses water
(47)
D. Somatic, somatic
Solution
(41)
B. Mitochondria - cellular respiration
(42)
B. adhesive junctions
Adherens junctions are protein complexes that occur at cell–cell junctions which tightly bind
cells together in a tissue layer
(43)
C. communicating junctions
communicating junctions enable communication between neighboring cells via specialized
proteins. They are also called gap junctions which allows various molecules, ions and electrical
impulses to directly pass through a regulated gate between cells.
(44)
C. Selectively permeable
Cell membranes are selectively permeable, allows certain molecules or ions to pass through it
(45)
A. Water
Osmosis is the net movement of water molecules through a semi-permeable membrane into a
region of higher solute concentration from low solute concentration.
(46)
B. Shriveling
Cell shrinks as it loses water
(47)
D. Somatic, somatic.
The electrons which are involved in bond formatio.pdf
The electrons which are involved in bond formation between atoms are found in the
outermost shell (sometimes in the next to the outer-most shell) of the neutral atom; these are
called VALENCE ELECTRONS. The atoms of elements which have only one or two electrons
in their outermost shells (active shells) may lose electrons when they combine with atoms of
other elements. An atom which has lost one or more valence electrons possesses a positive
charge, and is called a POSITIVE ION. The sodium atom loses its one valence electron and
acquires a +1 charge when it enters into chemical combination with an atom of an element such
as chlorine. The magnesium atom may lose its two valence electrons and assume a +2 charge.
Na Na+ + e- The Na symbol to the left of the arrow represents a stable sodium atom while the
Na+ symbol to the right of the arrow represents an unstable sodium ion which has had a single
electron removed. Mg Mg++ + 2e- The Mg symbol to the left of the arrow represents a stable
magnesium atom while the Mg++ symbol to the right of the arrow represents an unstable
magnesium ion which has had two electrons removed. The smaller the number of valence
electrons in the atom, the greater the tendency of the element to lose electrons and thus form
positive ions during chemical combination with atoms of other elements. The energy required to
remove an electron from a neutral atom to form a positive ion is called the IONIZATION
POTENTIAL of the atom. Some metals have small ionization potentials and readily form
positive ions. The nonmetals, which have more electrons in their outer shells than the metals,
have large ionization potentials and show little tendency toward the formation of positive ions.
Atoms which lack one or two electrons of having an outermost shell of eight electrons readily
gain sufficient electrons from certain other atoms, such as sodium and magnesium, to make a full
compliment of eight electrons in the outside shell. Neutral atoms become NEGATIVE IONS by
gaining electrons. The nonmetals, such as Fluorine (F), Chlorine (Cl), Bromine (Br), Iodine (I),
Oxygen (O), Nitrogen (N) and Sulfur (S), readily form negative ions. Cl + e- Cl- Chlorine,
when in its stable form, possesses seven valence electrons and therefore has the ability to gain
one electron (as represented to the left of the arrow) giving it a negative charge of one when in
its unstable ionic form (as represented to the right of the arrow above). S + 2e- S-2 Sulfur, when
in its stable form, possesses six valence electrons and therefore has the ability to gain two
electrons giving it a negative charge of two when in its unstable ionic form. The attraction of a
neutral atom for electrons is known as its ELECTRON AFFINITY. The nonmetals have high
electron affinities and the metals have very low electron affinities. Thus, mainly the nonmetals
tend to form negative ions during chemical combination. When a positive ion and a negative ion
are brought close together, strong electr.
Methylene blue is polar so a non polar mobile pha.pdf
Methylene blue is polar so a non polar mobile phase will make mobility poor due to
poor interactions
Solution
Methylene blue is polar so a non polar mobile phase will make mobility poor due to
poor interactions.
KCl NH3 Ar note KCl is ionic solid, has a v.pdf
KCl > NH3 > Ar note: KCl is ionic solid, has a very high melting point. NH3 is
molecular solid. But it involves hydrogen bonds and thus has a relatively higher mp than
nonploar molecular solid Ar(s) that only has very weak London dispersion force.
Solution
KCl > NH3 > Ar note: KCl is ionic solid, has a very high melting point. NH3 is
molecular solid. But it involves hydrogen bonds and thus has a relatively higher mp than
nonploar molecular solid Ar(s) that only has very weak London dispersion force..
Parameters, like population mean and population stadard deviation..pdf
Parameters, like population mean and population stadard deviation.
Solution
Parameters, like population mean and population stadard deviation..
b.glucose, HOCl, NaCl, MgCl2 increase in ionic ch.pdf
b.glucose, HOCl, NaCl, MgCl2 increase in ionic character
Solution
b.glucose, HOCl, NaCl, MgCl2 increase in ionic character.
The periodic table of the chemical elements (also known as the perio.pdf
The periodic table of the chemical elements (also known as the periodic table or periodic table of
the elements) is a tabular display of the 118 known chemical elements organized by selected
properties of their atomic structures. Elements are presented by increasing atomic number, the
number of protons in an atom\'s atomic nucleus. While rectangular in general outline, gaps are
included in the horizontal rows (known as periods) as needed to keep elements with similar
properties together in vertical columns (known as groups), e.g. alkali metals, alkali earths,
halogens, noble gases.
Periods
A period is a horizontal row in the periodic table. Although groups are the most common way of
classifying elements, there are some regions of the periodic table where the horizontal trends and
similarities in properties are more significant than vertical group trends. This can be true in the d-
block (or \"transition metals\"), and especially for the f-block, where the lanthanides and
actinides form two substantial horizontal series of elements.
Periodic trend for ionization energy. Each period begins at a minimum for the alkali metals, and
ends at a maximum for the noble gases.
Elements in the same period show trends in atomic radius, ionization energy, electron affinity,
and electronegativity. Moving left to right across a period, atomic radius usually decreases. This
occurs because each successive element has an added proton and electron which causes the
electron to be drawn closer to the nucleus. This decrease in atomic radius also causes the
ionization energy to increase when moving from left to right across a period. The more tightly
bound an element is, the more energy is required to remove an electron. Electronegativity
increases in the same manner as ionization energy because of the pull exerted on the electrons by
the nucleus. Electron affinity also shows a slight trend across a period. Metals (left side of a
period) generally have a lower electron affinity than nonmetals (right side of a period) with the
exception of the noble gases.
Hope this explains your daughter.... :)
Solution
The periodic table of the chemical elements (also known as the periodic table or periodic table of
the elements) is a tabular display of the 118 known chemical elements organized by selected
properties of their atomic structures. Elements are presented by increasing atomic number, the
number of protons in an atom\'s atomic nucleus. While rectangular in general outline, gaps are
included in the horizontal rows (known as periods) as needed to keep elements with similar
properties together in vertical columns (known as groups), e.g. alkali metals, alkali earths,
halogens, noble gases.
Periods
A period is a horizontal row in the periodic table. Although groups are the most common way of
classifying elements, there are some regions of the periodic table where the horizontal trends and
similarities in properties are more significant than vertical group trends. This can be t.
The answer is c, Polonium. An alpha particle contains two protons .pdf
The answer is c, Polonium.
An alpha particle contains two protons hence the original atom must have an atomic number 2
greater than Pb (lead). Looking at the periodic table we can see that that element is Po.
Solution
The answer is c, Polonium.
An alpha particle contains two protons hence the original atom must have an atomic number 2
greater than Pb (lead). Looking at the periodic table we can see that that element is Po..
Solutionclass IntNode { int data; public IntNode next,head;.pdf
Solution
:
class IntNode
{
int data;
public IntNode next,head;
public IntNode(int value)
{
data=value;
next=null;
}
public void setNext(IntNode n)
{
next=n;
}
public int getData()
{
return data;
}
public IntNode getNext()
{
return(next);
}
}
public class CircularLinkedList
{
public static void main(String[] args)
{
//test your code here
}
//private variables:
private IntNode head;
private IntNode tail;
//constructor
public CircularLinkedList(){
//empty linked list
head=null;
tail=null;
}
//add a node to the end of the list
public void add(int value){
//create new Node
IntNode newNode=new IntNode(value);
//if list is empty
if (isEmpty()){
//set new node as head
head=newNode;
//set next link to the head
newNode.setNext(head);
//set tail as the head
tail=head;
}else{
//set next link of the tail to the new node
tail.setNext(newNode);
//set next link of the new node to the head
newNode.setNext(head);
//update tail - new node is the new list tail
tail=newNode;
}
}
//check if linked list is empty
public boolean isEmpty(){
if (head ==null)
return true;
else return false;
}
//print the values in the linked list
public void print(){
//if list is empty
if(isEmpty()){
System.out.println(\"empty\ \");
return;
}
//if list has one node
if (head.getNext() == head)
{
System.out.println(head.getData());
return;
}
//start from the head node
IntNode currentNode=head;
while(currentNode.getNext() != head){
//print the value of the current node
System.out.print(currentNode.getData() +\"\\t\");
//go to the next node
currentNode=currentNode.getNext();
}
System.out.print(currentNode.getData());
System.out.println();
}
public IntNode delete()
{
if(head.next == null)
tail = null;
IntNode temp = head;
head = head.next;
return temp;
} // end delete
}.
Medical importance of bacteriaEcological importance of bacteria.pdf
Medical importance of bacteria:
Ecological importance of bacteria:
Solution
Medical importance of bacteria:
Ecological importance of bacteria:.
import turtleimport timeimport randomdef draw_rectangle(length.pdf
import turtle
import time
import random
def draw_rectangle(length, height):
turtle.up()
x = -150
y = 150
C = height*(7/13)
D = length*(2/5)
L = stripe_width = float(round(height/13,1))
## Draw rectangle first.
turtle.color(0,0,0)
turtle.begin_fill()
turtle.setpos(x,y)
turtle.down()
turtle.forward(length)
turtle.right(90)
turtle.forward(height)
turtle.right(90)
turtle.forward(length)
turtle.right(90)
turtle.forward(height)
turtle.end_fill()
## Then draw the stripes.
x1 = -150
y1 = 150-L
for z in range(13):
if z%2 == 0:
r = s = t = 0
else:
r = s = t = 1
turtle.up()
turtle.speed(100)
turtle.setpos(x1,y1)
turtle.setheading(90)
turtle.down()
turtle.color(r,s,t)
turtle.begin_fill()
turtle.forward(L)
turtle.right(90)
turtle.forward(length)
turtle.right(90)
turtle.forward(L)
turtle.right(90)
turtle.forward(length)
turtle.end_fill()
y1 -= L
## Finally draw the stars rectangle overlapping the stripes, next is stars.
x2 = -150+D
y2 = 150.5-C
turtle.up()
turtle.setpos(x2,y2)
turtle.down()
turtle.color(0,0,0)
turtle.begin_fill()
turtle.forward(D)
turtle.right(90)
turtle.forward(C)
turtle.right(90)
turtle.forward(D)
turtle.right(90)
turtle.forward(C)
turtle.end_fill()
turtle.up()
turtle.bye
draw_star(-length, height)
def draw_star(l, h):
for z in range(50):
if z < 7:
row = 140
draw_starrows(row)
if z < 14:
row = row - 20
draw_starrows(row)
if z < 21:
row = row - 20
draw_starrows(row)
if z < 28:
row = row - 20
draw_starrows(row)
if z < 35:
row = row - 20
draw_starrows(row)
## This gets the turtle pen out of the way at the very end.
turtle.up()
turtle.setpos(-180,100)
break
def draw_starrows(row):
x = -160
y = 150
for z in range(10):
x += 15
turtle.up()
turtle.color(1,1,1)
turtle.speed(100)
turtle.setpos(x,row)
turtle.begin_fill()
turtle.down()
turtle.forward(6.154)
turtle.left(144)
turtle.forward(6.154)
turtle.left(144)
turtle.forward(6.154)
turtle.left(144)
turtle.forward(6.154)
turtle.left(144)
turtle.forward(6.154)
turtle.left(144)
turtle.end_fill()
turtle.bye
##def get_color():
## r = g = b = 0
## color = r = g = b
## return color
def draw_flag():
A = 200
height = int(A)
## length = height*1.9
## C = height*(7/13)
## D = length*(2/5)
## E = F = union_height/10
## G = H = union_length/12
## stripe_width = height/13
## diameter_star = stripe_width*(4/5)
draw_rectangle(height*1.9, height)
draw_flag()
Here is the get_color solution:
def get_color(color2):
## If color2 equals 1, then make the color white.
if color2 == 1:
r = g = b = 1
return (r, g, b)
## If color2 equals 0, then make the color red.
if color2 == 0:
r = 1
g = 0
b = 0
return (r, g, b)
## If color2 equals 2, then make the color black.
if color2 == 2:
r = 0
g = 0
b = 1
return (r, g, b)
Solution
import turtle
import time
import random
def draw_rectangle(length, height):
turtle.up()
x = -150
y = 150
C = height*(7/13)
D = length*(2/5)
L = stripe_width = float(round(height/13,1))
## Draw rectangle first.
turtle.color(0,0,0)
turtle.begin_fill()
turtle.setpos(x,y)
turtle.down()
turtle.forward(length)
t.
Effects of NaCl Concentration on Red Blood Cell Volume A red blo.pdf
Effects of NaCl Concentration on Red Blood Cell Volume
A red blood cell (rbc) will attempt to regulate its volume when placed in a solution of
impermeable substances dissolved in water (Randall, 1997). A solution is considered to be
isosmotic when it has an osmolality equal to that of normal plasma (Freedman, 1998). The
osmolarity is the osmotic pressure that a cell effectively has exerted upon it (Randall, 1997). The
osmotic pressure is the pressure that is created by osmosis between different solutions that are
separated by a semipermeable membrane (Randall, 1997). If a rbc is placed in an isotonic
solution, the cell will maintain its normal volume because no osmotic pressure is developed. A
hypotonic solution has a lower concentration of solutes than the interior of the cell. Therefore, a
hypotonic solution will cause water to flow into the cell, as the concentration of solutes inside of
the cell is higher. If this water influx continues for a long period of time (with ineffective (or
absence of) volume regulation by the cell), the cell my lyse (burst) as the pressure builds up
inside to a magnitude greater than can be handled by the cellular membrane.
here are a number of ways in which red blood cells (and animal cells in general) cope with
changes in solute concentration on the outside of their membrane surfaces. There may be a
volume regulatory decrease (RVD) or increase (RVI) depending upon the concentration of the
solutes on the outside of the cellular membrane (Freedman, 1998). The response that is activated
by the swelling of the cells usually involves an increase in the K+/Cl- transporters (see figure 2)
in ducks, sheep, rabbits, and some other mammals (Freedman, 1998; Motais et al, 1997). The
swelling response may also trigger the formation of a channel (in which band 3 is involved) that
allows osmolytes such as taurine (and other small, organic, osmotically active solutes) to be
transported out of the cell (Freedman, 1998; Motais et al, 1997). The shrink activated response in
red blood cells involves the activation of Na+/K+/2 Cl- cotransporters (in general, and in the
case of the duck (Freedman, 1998)).
The molarity in plasma of NaCl is approximately 0.15M, therefore the concentration of 0.15M
NaCl treatment would be considered isosmotic to red blood cell plasma. The change in
concentration to 0.12 M NaCl would be a hypotonic condition, and the conditions of 0.21, 0.33,
0.157, and 1.05M NaCl would be hypertonic conditions.
Solution
Effects of NaCl Concentration on Red Blood Cell Volume
A red blood cell (rbc) will attempt to regulate its volume when placed in a solution of
impermeable substances dissolved in water (Randall, 1997). A solution is considered to be
isosmotic when it has an osmolality equal to that of normal plasma (Freedman, 1998). The
osmolarity is the osmotic pressure that a cell effectively has exerted upon it (Randall, 1997). The
osmotic pressure is the pressure that is created by osmosis between different soluti.
Answer-Possible types of audit for this project1. Financial au.pdf
Answer:-
Possible types of audit for this project:
1. Financial audit - It shows acccuracy, fairness and where the financial portion used and how
much. As in this it show all the financial records which shows relaibility of data.
2. Operational audit - it is future oriented and independent evalution of organisational activites,
in this internal activites and effeciency and control is evaluated.
3. Investigavtive audit - In this audit evaluted on the suspicious matters which may be include
with individual or departement, all the members confidentially repord to director about this
suspcious matter.
Steps in Audit process:-
1. scheduling the conference to audit objective, timing, purpose, format and work distribution.
2. Assesing the relability of documents and internal effeciency and system.
3. Testing internal control for ensuring proper operations.
4. Disscusing all the thing with management all observation
5. draft a report according to responses of the queries.
6. Following critical issue which raised in audit report, that this is resolved or not.
Solution
Answer:-
Possible types of audit for this project:
1. Financial audit - It shows acccuracy, fairness and where the financial portion used and how
much. As in this it show all the financial records which shows relaibility of data.
2. Operational audit - it is future oriented and independent evalution of organisational activites,
in this internal activites and effeciency and control is evaluated.
3. Investigavtive audit - In this audit evaluted on the suspicious matters which may be include
with individual or departement, all the members confidentially repord to director about this
suspcious matter.
Steps in Audit process:-
1. scheduling the conference to audit objective, timing, purpose, format and work distribution.
2. Assesing the relability of documents and internal effeciency and system.
3. Testing internal control for ensuring proper operations.
4. Disscusing all the thing with management all observation
5. draft a report according to responses of the queries.
6. Following critical issue which raised in audit report, that this is resolved or not..
Ans to Q4.Colloid is a particular state of matter.A colloidal sy.pdf
Ans to Q4.
Colloid is a particular state of matter.
A colloidal system is a two-phase heterogeneous system consisting of two separate phases with
distinct boundaries between them, viz., a continuous phase or dispersion medium made of one
substance and a disperse phase of particles of another substance dispersed in the continuous
phase. In contrast, a true solution is a single-phase homogeneous system without any physically
demonstrable boundary between the solvent and the solute particles. In fact, dispersed particles
of a colloidal system, though submicroscopic, are much larger than the solute particles of a true
solution. So, they can be separated from true solutes and the dispersion medium by
ultracentrifugation and dialysis.
Dispersed colloidal particles are much smaller than the particles of a suspension; so, they do not
sediment under gravity alone, and are not held back by ordinary filter papers.
Ans to Q5.
Natural Organic Matter (NOM) is the organic material present in surface or ground water. It
includes both humic and non-humic fractions. The humic fraction includes high molecular
weight organic molecules such as humic and fulvic acids. These substances with tanic acid are
the major fraction of Dissolved Organic Matter (DOM) in water. These substances are oxidized
very slowly and their solubility in water may vary with pH. The dissolved fraction of NOM may
not be fully removed using conventional water treatment practices and have been shown to
produce by-products such as trihalomethane during disinfection. On-line analysis of dissolved
NOM is important for proper monitoring and control of enhanced or special treatment processes
designed to remove prior to disinfection.
An increase in the amount of NOM has been observed over the past 10-20 years in raw water
supplies in several areas, which has a significant effect on drinking water treatment. The
presence of NOM causes many problems in drinking water and drinking water treatment
processes such as: i) negetive effect on water quality by causing colour, taste and odor problems,
ii) increased coagulant and disinfectant doses which in turn results in increased sludge volumes
and production of harmful disinfectant by-products, iii) promoted biological growth in
distribution system and iv) increased levels of complexed heavy metals and absorbed organic
pollutants.
Solution
Ans to Q4.
Colloid is a particular state of matter.
A colloidal system is a two-phase heterogeneous system consisting of two separate phases with
distinct boundaries between them, viz., a continuous phase or dispersion medium made of one
substance and a disperse phase of particles of another substance dispersed in the continuous
phase. In contrast, a true solution is a single-phase homogeneous system without any physically
demonstrable boundary between the solvent and the solute particles. In fact, dispersed particles
of a colloidal system, though submicroscopic, are much larger than the solute particles of a true
solut.
Answer B and D.Both CTRL-Z and end break out of configuration mod.pdf
Answer: B and D.
Both CTRL-Z and end break out of configuration mode.altogether.
ESC-Z is not a correct keystroke combination.
Exit will only bring the user back one level.
Solution
Answer: B and D.
Both CTRL-Z and end break out of configuration mode.altogether.
ESC-Z is not a correct keystroke combination.
Exit will only bring the user back one level..
Amphipathic means that the molecule has a polar, hydrophillic end an.pdf
Amphipathic means that the molecule has a polar, hydrophillic end and a non-polar hydrophobic
end. In water, amphipathic molecules tend to form micelles, with the hydrophillic ends outward
and the hydrophobic ends inward.
Solution
Amphipathic means that the molecule has a polar, hydrophillic end and a non-polar hydrophobic
end. In water, amphipathic molecules tend to form micelles, with the hydrophillic ends outward
and the hydrophobic ends inward..
Moran Enterprises Inc. (All values in $) Multi Step Income Sta.pdf
Moran Enterprises Inc. (All values in $) Multi Step Income Statement for the year ended 31
December 2012 Sales Revenue 220000 Cost of Goods Sold 120000 Gross Profit
100000 Less : Operating Expenses 47000 Net Profit before Interest, Depreciation 53000
and Taxation Less : Depreciation Expense 0 Less : Interest Expense 5000 5000
Net Profit before Taxation 48000 Taxation Expense 10000 Profit after Taxation 38000
Dividends Paid 14000 Transferred to Retained Earnings 24000 Classified Balance
Sheet as on 31 December 2012 Current Assets Accounts Receivable 24000
Inventory 33000 Cash 12000 Total Current Assets 69000 Tangible and
Intangible Assets Equipment, Net of Depreciation 75000 Total Assets 144000
Current Liabilities Accounts Payable 15000 Unearned Revenue 21000 Total Current
Liabilities 36000 Equity and Retained Earnings Capital Stock 65000 Retained
Earnings Opening Balance 19000 Profit for the year 24000 43000 Total
Liabilities and Equity 144000
Solution
Moran Enterprises Inc. (All values in $) Multi Step Income Statement for the year ended 31
December 2012 Sales Revenue 220000 Cost of Goods Sold 120000 Gross Profit
100000 Less : Operating Expenses 47000 Net Profit before Interest, Depreciation 53000
and Taxation Less : Depreciation Expense 0 Less : Interest Expense 5000 5000
Net Profit before Taxation 48000 Taxation Expense 10000 Profit after Taxation 38000
Dividends Paid 14000 Transferred to Retained Earnings 24000 Classified Balance
Sheet as on 31 December 2012 Current Assets Accounts Receivable 24000
Inventory 33000 Cash 12000 Total Current Assets 69000 Tangible and
Intangible Assets Equipment, Net of Depreciation 75000 Total Assets 144000
Current Liabilities Accounts Payable 15000 Unearned Revenue 21000 Total Current
Liabilities 36000 Equity and Retained Earnings Capital Stock 65000 Retained
Earnings Opening Balance 19000 Profit for the year 24000 43000 Total
Liabilities and Equity 144000.
Chapter 3 - Islamic Banking Products and Services.pptx
Chapter 3 - Islamic Banking Products and Services.pptxMohd Adib Abd Muin, Senior Lecturer at Universiti Utara Malaysia
This slide is prepared for master's students (MIFB & MIBS) UUM. May it be useful to all.The approach at University of Liverpool.pptx
How libraries can support authors with open access requirements for UKRI funded books
Wednesday 22 May 2024, 14:00-15:00.
BÀI TẬP BỔ TRỢ TIẾNG ANH GLOBAL SUCCESS LỚP 3 - CẢ NĂM (CÓ FILE NGHE VÀ ĐÁP Á...
BÀI TẬP BỔ TRỢ TIẾNG ANH GLOBAL SUCCESS LỚP 3 - CẢ NĂM (CÓ FILE NGHE VÀ ĐÁP Á...Nguyen Thanh Tu Collection
https://app.box.com/s/hqnndn05v4q5a4k4jd597rkdbda0fniiThe Roman Empire A Historical Colossus.pdf
The Roman Empire, a vast and enduring power, stands as one of history's most remarkable civilizations, leaving an indelible imprint on the world. It emerged from the Roman Republic, transitioning into an imperial powerhouse under the leadership of Augustus Caesar in 27 BCE. This transformation marked the beginning of an era defined by unprecedented territorial expansion, architectural marvels, and profound cultural influence.
The empire's roots lie in the city of Rome, founded, according to legend, by Romulus in 753 BCE. Over centuries, Rome evolved from a small settlement to a formidable republic, characterized by a complex political system with elected officials and checks on power. However, internal strife, class conflicts, and military ambitions paved the way for the end of the Republic. Julius Caesar’s dictatorship and subsequent assassination in 44 BCE created a power vacuum, leading to a civil war. Octavian, later Augustus, emerged victorious, heralding the Roman Empire’s birth.
Under Augustus, the empire experienced the Pax Romana, a 200-year period of relative peace and stability. Augustus reformed the military, established efficient administrative systems, and initiated grand construction projects. The empire's borders expanded, encompassing territories from Britain to Egypt and from Spain to the Euphrates. Roman legions, renowned for their discipline and engineering prowess, secured and maintained these vast territories, building roads, fortifications, and cities that facilitated control and integration.
The Roman Empire’s society was hierarchical, with a rigid class system. At the top were the patricians, wealthy elites who held significant political power. Below them were the plebeians, free citizens with limited political influence, and the vast numbers of slaves who formed the backbone of the economy. The family unit was central, governed by the paterfamilias, the male head who held absolute authority.
Culturally, the Romans were eclectic, absorbing and adapting elements from the civilizations they encountered, particularly the Greeks. Roman art, literature, and philosophy reflected this synthesis, creating a rich cultural tapestry. Latin, the Roman language, became the lingua franca of the Western world, influencing numerous modern languages.
Roman architecture and engineering achievements were monumental. They perfected the arch, vault, and dome, constructing enduring structures like the Colosseum, Pantheon, and aqueducts. These engineering marvels not only showcased Roman ingenuity but also served practical purposes, from public entertainment to water supply.
The Challenger.pdf DNHS Official Publication
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
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Parameters, like population mean and population stadard deviation..pdf
Parameters, like population mean and population stadard deviation.
Solution
Parameters, like population mean and population stadard deviation..
b.glucose, HOCl, NaCl, MgCl2 increase in ionic ch.pdf
b.glucose, HOCl, NaCl, MgCl2 increase in ionic character
Solution
b.glucose, HOCl, NaCl, MgCl2 increase in ionic character.
The periodic table of the chemical elements (also known as the perio.pdf
The periodic table of the chemical elements (also known as the periodic table or periodic table of
the elements) is a tabular display of the 118 known chemical elements organized by selected
properties of their atomic structures. Elements are presented by increasing atomic number, the
number of protons in an atom\'s atomic nucleus. While rectangular in general outline, gaps are
included in the horizontal rows (known as periods) as needed to keep elements with similar
properties together in vertical columns (known as groups), e.g. alkali metals, alkali earths,
halogens, noble gases.
Periods
A period is a horizontal row in the periodic table. Although groups are the most common way of
classifying elements, there are some regions of the periodic table where the horizontal trends and
similarities in properties are more significant than vertical group trends. This can be true in the d-
block (or \"transition metals\"), and especially for the f-block, where the lanthanides and
actinides form two substantial horizontal series of elements.
Periodic trend for ionization energy. Each period begins at a minimum for the alkali metals, and
ends at a maximum for the noble gases.
Elements in the same period show trends in atomic radius, ionization energy, electron affinity,
and electronegativity. Moving left to right across a period, atomic radius usually decreases. This
occurs because each successive element has an added proton and electron which causes the
electron to be drawn closer to the nucleus. This decrease in atomic radius also causes the
ionization energy to increase when moving from left to right across a period. The more tightly
bound an element is, the more energy is required to remove an electron. Electronegativity
increases in the same manner as ionization energy because of the pull exerted on the electrons by
the nucleus. Electron affinity also shows a slight trend across a period. Metals (left side of a
period) generally have a lower electron affinity than nonmetals (right side of a period) with the
exception of the noble gases.
Hope this explains your daughter.... :)
Solution
The periodic table of the chemical elements (also known as the periodic table or periodic table of
the elements) is a tabular display of the 118 known chemical elements organized by selected
properties of their atomic structures. Elements are presented by increasing atomic number, the
number of protons in an atom\'s atomic nucleus. While rectangular in general outline, gaps are
included in the horizontal rows (known as periods) as needed to keep elements with similar
properties together in vertical columns (known as groups), e.g. alkali metals, alkali earths,
halogens, noble gases.
Periods
A period is a horizontal row in the periodic table. Although groups are the most common way of
classifying elements, there are some regions of the periodic table where the horizontal trends and
similarities in properties are more significant than vertical group trends. This can be t.
The answer is c, Polonium. An alpha particle contains two protons .pdf
The answer is c, Polonium.
An alpha particle contains two protons hence the original atom must have an atomic number 2
greater than Pb (lead). Looking at the periodic table we can see that that element is Po.
Solution
The answer is c, Polonium.
An alpha particle contains two protons hence the original atom must have an atomic number 2
greater than Pb (lead). Looking at the periodic table we can see that that element is Po..
Solutionclass IntNode { int data; public IntNode next,head;.pdf
Solution
:
class IntNode
{
int data;
public IntNode next,head;
public IntNode(int value)
{
data=value;
next=null;
}
public void setNext(IntNode n)
{
next=n;
}
public int getData()
{
return data;
}
public IntNode getNext()
{
return(next);
}
}
public class CircularLinkedList
{
public static void main(String[] args)
{
//test your code here
}
//private variables:
private IntNode head;
private IntNode tail;
//constructor
public CircularLinkedList(){
//empty linked list
head=null;
tail=null;
}
//add a node to the end of the list
public void add(int value){
//create new Node
IntNode newNode=new IntNode(value);
//if list is empty
if (isEmpty()){
//set new node as head
head=newNode;
//set next link to the head
newNode.setNext(head);
//set tail as the head
tail=head;
}else{
//set next link of the tail to the new node
tail.setNext(newNode);
//set next link of the new node to the head
newNode.setNext(head);
//update tail - new node is the new list tail
tail=newNode;
}
}
//check if linked list is empty
public boolean isEmpty(){
if (head ==null)
return true;
else return false;
}
//print the values in the linked list
public void print(){
//if list is empty
if(isEmpty()){
System.out.println(\"empty\ \");
return;
}
//if list has one node
if (head.getNext() == head)
{
System.out.println(head.getData());
return;
}
//start from the head node
IntNode currentNode=head;
while(currentNode.getNext() != head){
//print the value of the current node
System.out.print(currentNode.getData() +\"\\t\");
//go to the next node
currentNode=currentNode.getNext();
}
System.out.print(currentNode.getData());
System.out.println();
}
public IntNode delete()
{
if(head.next == null)
tail = null;
IntNode temp = head;
head = head.next;
return temp;
} // end delete
}.
Medical importance of bacteriaEcological importance of bacteria.pdf
Medical importance of bacteria:
Ecological importance of bacteria:
Solution
Medical importance of bacteria:
Ecological importance of bacteria:.
import turtleimport timeimport randomdef draw_rectangle(length.pdf
import turtle
import time
import random
def draw_rectangle(length, height):
turtle.up()
x = -150
y = 150
C = height*(7/13)
D = length*(2/5)
L = stripe_width = float(round(height/13,1))
## Draw rectangle first.
turtle.color(0,0,0)
turtle.begin_fill()
turtle.setpos(x,y)
turtle.down()
turtle.forward(length)
turtle.right(90)
turtle.forward(height)
turtle.right(90)
turtle.forward(length)
turtle.right(90)
turtle.forward(height)
turtle.end_fill()
## Then draw the stripes.
x1 = -150
y1 = 150-L
for z in range(13):
if z%2 == 0:
r = s = t = 0
else:
r = s = t = 1
turtle.up()
turtle.speed(100)
turtle.setpos(x1,y1)
turtle.setheading(90)
turtle.down()
turtle.color(r,s,t)
turtle.begin_fill()
turtle.forward(L)
turtle.right(90)
turtle.forward(length)
turtle.right(90)
turtle.forward(L)
turtle.right(90)
turtle.forward(length)
turtle.end_fill()
y1 -= L
## Finally draw the stars rectangle overlapping the stripes, next is stars.
x2 = -150+D
y2 = 150.5-C
turtle.up()
turtle.setpos(x2,y2)
turtle.down()
turtle.color(0,0,0)
turtle.begin_fill()
turtle.forward(D)
turtle.right(90)
turtle.forward(C)
turtle.right(90)
turtle.forward(D)
turtle.right(90)
turtle.forward(C)
turtle.end_fill()
turtle.up()
turtle.bye
draw_star(-length, height)
def draw_star(l, h):
for z in range(50):
if z < 7:
row = 140
draw_starrows(row)
if z < 14:
row = row - 20
draw_starrows(row)
if z < 21:
row = row - 20
draw_starrows(row)
if z < 28:
row = row - 20
draw_starrows(row)
if z < 35:
row = row - 20
draw_starrows(row)
## This gets the turtle pen out of the way at the very end.
turtle.up()
turtle.setpos(-180,100)
break
def draw_starrows(row):
x = -160
y = 150
for z in range(10):
x += 15
turtle.up()
turtle.color(1,1,1)
turtle.speed(100)
turtle.setpos(x,row)
turtle.begin_fill()
turtle.down()
turtle.forward(6.154)
turtle.left(144)
turtle.forward(6.154)
turtle.left(144)
turtle.forward(6.154)
turtle.left(144)
turtle.forward(6.154)
turtle.left(144)
turtle.forward(6.154)
turtle.left(144)
turtle.end_fill()
turtle.bye
##def get_color():
## r = g = b = 0
## color = r = g = b
## return color
def draw_flag():
A = 200
height = int(A)
## length = height*1.9
## C = height*(7/13)
## D = length*(2/5)
## E = F = union_height/10
## G = H = union_length/12
## stripe_width = height/13
## diameter_star = stripe_width*(4/5)
draw_rectangle(height*1.9, height)
draw_flag()
Here is the get_color solution:
def get_color(color2):
## If color2 equals 1, then make the color white.
if color2 == 1:
r = g = b = 1
return (r, g, b)
## If color2 equals 0, then make the color red.
if color2 == 0:
r = 1
g = 0
b = 0
return (r, g, b)
## If color2 equals 2, then make the color black.
if color2 == 2:
r = 0
g = 0
b = 1
return (r, g, b)
Solution
import turtle
import time
import random
def draw_rectangle(length, height):
turtle.up()
x = -150
y = 150
C = height*(7/13)
D = length*(2/5)
L = stripe_width = float(round(height/13,1))
## Draw rectangle first.
turtle.color(0,0,0)
turtle.begin_fill()
turtle.setpos(x,y)
turtle.down()
turtle.forward(length)
t.
Effects of NaCl Concentration on Red Blood Cell Volume A red blo.pdf
Effects of NaCl Concentration on Red Blood Cell Volume
A red blood cell (rbc) will attempt to regulate its volume when placed in a solution of
impermeable substances dissolved in water (Randall, 1997). A solution is considered to be
isosmotic when it has an osmolality equal to that of normal plasma (Freedman, 1998). The
osmolarity is the osmotic pressure that a cell effectively has exerted upon it (Randall, 1997). The
osmotic pressure is the pressure that is created by osmosis between different solutions that are
separated by a semipermeable membrane (Randall, 1997). If a rbc is placed in an isotonic
solution, the cell will maintain its normal volume because no osmotic pressure is developed. A
hypotonic solution has a lower concentration of solutes than the interior of the cell. Therefore, a
hypotonic solution will cause water to flow into the cell, as the concentration of solutes inside of
the cell is higher. If this water influx continues for a long period of time (with ineffective (or
absence of) volume regulation by the cell), the cell my lyse (burst) as the pressure builds up
inside to a magnitude greater than can be handled by the cellular membrane.
here are a number of ways in which red blood cells (and animal cells in general) cope with
changes in solute concentration on the outside of their membrane surfaces. There may be a
volume regulatory decrease (RVD) or increase (RVI) depending upon the concentration of the
solutes on the outside of the cellular membrane (Freedman, 1998). The response that is activated
by the swelling of the cells usually involves an increase in the K+/Cl- transporters (see figure 2)
in ducks, sheep, rabbits, and some other mammals (Freedman, 1998; Motais et al, 1997). The
swelling response may also trigger the formation of a channel (in which band 3 is involved) that
allows osmolytes such as taurine (and other small, organic, osmotically active solutes) to be
transported out of the cell (Freedman, 1998; Motais et al, 1997). The shrink activated response in
red blood cells involves the activation of Na+/K+/2 Cl- cotransporters (in general, and in the
case of the duck (Freedman, 1998)).
The molarity in plasma of NaCl is approximately 0.15M, therefore the concentration of 0.15M
NaCl treatment would be considered isosmotic to red blood cell plasma. The change in
concentration to 0.12 M NaCl would be a hypotonic condition, and the conditions of 0.21, 0.33,
0.157, and 1.05M NaCl would be hypertonic conditions.
Solution
Effects of NaCl Concentration on Red Blood Cell Volume
A red blood cell (rbc) will attempt to regulate its volume when placed in a solution of
impermeable substances dissolved in water (Randall, 1997). A solution is considered to be
isosmotic when it has an osmolality equal to that of normal plasma (Freedman, 1998). The
osmolarity is the osmotic pressure that a cell effectively has exerted upon it (Randall, 1997). The
osmotic pressure is the pressure that is created by osmosis between different soluti.
Answer-Possible types of audit for this project1. Financial au.pdf
Answer:-
Possible types of audit for this project:
1. Financial audit - It shows acccuracy, fairness and where the financial portion used and how
much. As in this it show all the financial records which shows relaibility of data.
2. Operational audit - it is future oriented and independent evalution of organisational activites,
in this internal activites and effeciency and control is evaluated.
3. Investigavtive audit - In this audit evaluted on the suspicious matters which may be include
with individual or departement, all the members confidentially repord to director about this
suspcious matter.
Steps in Audit process:-
1. scheduling the conference to audit objective, timing, purpose, format and work distribution.
2. Assesing the relability of documents and internal effeciency and system.
3. Testing internal control for ensuring proper operations.
4. Disscusing all the thing with management all observation
5. draft a report according to responses of the queries.
6. Following critical issue which raised in audit report, that this is resolved or not.
Solution
Answer:-
Possible types of audit for this project:
1. Financial audit - It shows acccuracy, fairness and where the financial portion used and how
much. As in this it show all the financial records which shows relaibility of data.
2. Operational audit - it is future oriented and independent evalution of organisational activites,
in this internal activites and effeciency and control is evaluated.
3. Investigavtive audit - In this audit evaluted on the suspicious matters which may be include
with individual or departement, all the members confidentially repord to director about this
suspcious matter.
Steps in Audit process:-
1. scheduling the conference to audit objective, timing, purpose, format and work distribution.
2. Assesing the relability of documents and internal effeciency and system.
3. Testing internal control for ensuring proper operations.
4. Disscusing all the thing with management all observation
5. draft a report according to responses of the queries.
6. Following critical issue which raised in audit report, that this is resolved or not..
Ans to Q4.Colloid is a particular state of matter.A colloidal sy.pdf
Ans to Q4.
Colloid is a particular state of matter.
A colloidal system is a two-phase heterogeneous system consisting of two separate phases with
distinct boundaries between them, viz., a continuous phase or dispersion medium made of one
substance and a disperse phase of particles of another substance dispersed in the continuous
phase. In contrast, a true solution is a single-phase homogeneous system without any physically
demonstrable boundary between the solvent and the solute particles. In fact, dispersed particles
of a colloidal system, though submicroscopic, are much larger than the solute particles of a true
solution. So, they can be separated from true solutes and the dispersion medium by
ultracentrifugation and dialysis.
Dispersed colloidal particles are much smaller than the particles of a suspension; so, they do not
sediment under gravity alone, and are not held back by ordinary filter papers.
Ans to Q5.
Natural Organic Matter (NOM) is the organic material present in surface or ground water. It
includes both humic and non-humic fractions. The humic fraction includes high molecular
weight organic molecules such as humic and fulvic acids. These substances with tanic acid are
the major fraction of Dissolved Organic Matter (DOM) in water. These substances are oxidized
very slowly and their solubility in water may vary with pH. The dissolved fraction of NOM may
not be fully removed using conventional water treatment practices and have been shown to
produce by-products such as trihalomethane during disinfection. On-line analysis of dissolved
NOM is important for proper monitoring and control of enhanced or special treatment processes
designed to remove prior to disinfection.
An increase in the amount of NOM has been observed over the past 10-20 years in raw water
supplies in several areas, which has a significant effect on drinking water treatment. The
presence of NOM causes many problems in drinking water and drinking water treatment
processes such as: i) negetive effect on water quality by causing colour, taste and odor problems,
ii) increased coagulant and disinfectant doses which in turn results in increased sludge volumes
and production of harmful disinfectant by-products, iii) promoted biological growth in
distribution system and iv) increased levels of complexed heavy metals and absorbed organic
pollutants.
Solution
Ans to Q4.
Colloid is a particular state of matter.
A colloidal system is a two-phase heterogeneous system consisting of two separate phases with
distinct boundaries between them, viz., a continuous phase or dispersion medium made of one
substance and a disperse phase of particles of another substance dispersed in the continuous
phase. In contrast, a true solution is a single-phase homogeneous system without any physically
demonstrable boundary between the solvent and the solute particles. In fact, dispersed particles
of a colloidal system, though submicroscopic, are much larger than the solute particles of a true
solut.
Answer B and D.Both CTRL-Z and end break out of configuration mod.pdf
Answer: B and D.
Both CTRL-Z and end break out of configuration mode.altogether.
ESC-Z is not a correct keystroke combination.
Exit will only bring the user back one level.
Solution
Answer: B and D.
Both CTRL-Z and end break out of configuration mode.altogether.
ESC-Z is not a correct keystroke combination.
Exit will only bring the user back one level..
Amphipathic means that the molecule has a polar, hydrophillic end an.pdf
Amphipathic means that the molecule has a polar, hydrophillic end and a non-polar hydrophobic
end. In water, amphipathic molecules tend to form micelles, with the hydrophillic ends outward
and the hydrophobic ends inward.
Solution
Amphipathic means that the molecule has a polar, hydrophillic end and a non-polar hydrophobic
end. In water, amphipathic molecules tend to form micelles, with the hydrophillic ends outward
and the hydrophobic ends inward..
Moran Enterprises Inc. (All values in $) Multi Step Income Sta.pdf
Moran Enterprises Inc. (All values in $) Multi Step Income Statement for the year ended 31
December 2012 Sales Revenue 220000 Cost of Goods Sold 120000 Gross Profit
100000 Less : Operating Expenses 47000 Net Profit before Interest, Depreciation 53000
and Taxation Less : Depreciation Expense 0 Less : Interest Expense 5000 5000
Net Profit before Taxation 48000 Taxation Expense 10000 Profit after Taxation 38000
Dividends Paid 14000 Transferred to Retained Earnings 24000 Classified Balance
Sheet as on 31 December 2012 Current Assets Accounts Receivable 24000
Inventory 33000 Cash 12000 Total Current Assets 69000 Tangible and
Intangible Assets Equipment, Net of Depreciation 75000 Total Assets 144000
Current Liabilities Accounts Payable 15000 Unearned Revenue 21000 Total Current
Liabilities 36000 Equity and Retained Earnings Capital Stock 65000 Retained
Earnings Opening Balance 19000 Profit for the year 24000 43000 Total
Liabilities and Equity 144000
Solution
Moran Enterprises Inc. (All values in $) Multi Step Income Statement for the year ended 31
December 2012 Sales Revenue 220000 Cost of Goods Sold 120000 Gross Profit
100000 Less : Operating Expenses 47000 Net Profit before Interest, Depreciation 53000
and Taxation Less : Depreciation Expense 0 Less : Interest Expense 5000 5000
Net Profit before Taxation 48000 Taxation Expense 10000 Profit after Taxation 38000
Dividends Paid 14000 Transferred to Retained Earnings 24000 Classified Balance
Sheet as on 31 December 2012 Current Assets Accounts Receivable 24000
Inventory 33000 Cash 12000 Total Current Assets 69000 Tangible and
Intangible Assets Equipment, Net of Depreciation 75000 Total Assets 144000
Current Liabilities Accounts Payable 15000 Unearned Revenue 21000 Total Current
Liabilities 36000 Equity and Retained Earnings Capital Stock 65000 Retained
Earnings Opening Balance 19000 Profit for the year 24000 43000 Total
Liabilities and Equity 144000.
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Parameters, like population mean and population stadard deviation..pdf
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