1. The circulatory system carriesD) All of the aboveThe circula.pdfinfo54093
1. The circulatory system carries:
D) All of the above
The circulatory system delivers nutrients, gases -oxygen and Carbon dioxide, and other needed
substances
2. The structure that conveys sperm from the testis to the vas deferens is the _______
A) Epididymis
epididymis connects a testicle to a vas deferens in the male reproductive system and conveys
sperm from the testis to the vas deferens.
Solution
1. The circulatory system carries:
D) All of the above
The circulatory system delivers nutrients, gases -oxygen and Carbon dioxide, and other needed
substances
2. The structure that conveys sperm from the testis to the vas deferens is the _______
A) Epididymis
epididymis connects a testicle to a vas deferens in the male reproductive system and conveys
sperm from the testis to the vas deferens..
1. Nucleoside reverse transcriptase inhibitors may interfere with DN.pdfinfo54093
1. Nucleoside reverse transcriptase inhibitors may interfere with DNA replication by the host,
not just by the virus.
2. A. A mucociliary blanket to remove contaminants, secretion of lysozyme and other
antimicrobial chemicals, and alveolar macrophages helps protect against airborne diseases.
Respiratory track is guarded by different defence system like cilia and mucus glands in nasal
tract , and presence of alveolar macrophages. All these defence system prevent attack from
pathogens.
3. The genetic material is called a prophage and the change in the host cell\'s properties is called
lysogenic conversion.
Prophage is the genetic material of a bacteriophage, incorporated into the genome of a bacterium
and able to produce phages if specifically activated.
4. The surface antigens of a virus become drastically changed as a result of the combining of
genetic material from different viruses without one organism.
Antigenic shift is the process by which two or more different strains of a virus, or strains of two
or more different viruses, combine to form a new subtype having a mixture of the surface
antigens of the two or more original strains.
Solution
1. Nucleoside reverse transcriptase inhibitors may interfere with DNA replication by the host,
not just by the virus.
2. A. A mucociliary blanket to remove contaminants, secretion of lysozyme and other
antimicrobial chemicals, and alveolar macrophages helps protect against airborne diseases.
Respiratory track is guarded by different defence system like cilia and mucus glands in nasal
tract , and presence of alveolar macrophages. All these defence system prevent attack from
pathogens.
3. The genetic material is called a prophage and the change in the host cell\'s properties is called
lysogenic conversion.
Prophage is the genetic material of a bacteriophage, incorporated into the genome of a bacterium
and able to produce phages if specifically activated.
4. The surface antigens of a virus become drastically changed as a result of the combining of
genetic material from different viruses without one organism.
Antigenic shift is the process by which two or more different strains of a virus, or strains of two
or more different viruses, combine to form a new subtype having a mixture of the surface
antigens of the two or more original strains..
1) Ba2+ and I- no precipitate 2) Ag+ and NO3- no precipitate.pdfinfo54093
1) Ba2+ and I-
no precipitate
2) Ag+ and NO3-
no precipitate
3) Na+ and (SO4)2-
no precipitate
4) Cu+ and S2-
Cu2S precipitate
color: dark grey
reaction:
2Cu+(aq) + S2-(aq) ---> Cu2S(s)
Solution
1) Ba2+ and I-
no precipitate
2) Ag+ and NO3-
no precipitate
3) Na+ and (SO4)2-
no precipitate
4) Cu+ and S2-
Cu2S precipitate
color: dark grey
reaction:
2Cu+(aq) + S2-(aq) ---> Cu2S(s).
SO3 (the molecule is trigonal-planar, so the dipo.pdfinfo54093
SO3 (the molecule is trigonal-planar, so the dipole moments of the bonds
compensate
Solution
SO3 (the molecule is trigonal-planar, so the dipole moments of the bonds
compensate.
Nucleosynthesis is the process of creating new at.pdfinfo54093
Nucleosynthesis is the process of creating new atomic nuclei from pre-existing
nucleons (protons and neutrons). The first nuclei were formed about three minutes after the Big
Bang, through the process of Big Bang nucleosynthesis. With the formation of stars, heavier
nuclei were created through stellar nucleosynthesis, a process that has continued to the present.
Supernova nucleosynthesis and cosmic ray spallation are also significant sources of nuclei. In
addition to these major processes in space, many minor natural processes continue to produce
small amounts of new elements on Earth. These nuclides are naturally produced on a continuing
basis via the decay of long-lived primordial radionuclides (via radiogenesis), from natural
nuclear reactions in cosmic ray bombardment of elements on Earth (cosmogenic nuclides), and
from other natural nuclear reactions powered by particles from radioactive decay, (producing
nucleogenic nuclides). In modern theory, there are a number of astrophysical processes which
are believed to be responsible for nucleosynthesis in the universe. The majority of these occur
within the hot matter inside stars. The successive nuclear fusion processes which occur inside
stars are known as hydrogen burning (via the proton-proton chain or the CNO cycle), helium
burning, carbon burning, neon burning, oxygen burning and silicon burning. These processes are
able to create elements up to iron and nickel, the region of the isotopes having the highest
binding energy per nucleon. Heavier elements can be assembled within stars by a neutron
capture process known as the s process or in explosive environments, such as supernovae, by a
number of processes. Some of the more important of these include the r process, which involves
rapid neutron captures, the rp process, which involves rapid proton captures, and the p process
(sometimes known as the gamma process), which involves photodisintegration of existing nuclei.
Solution
Nucleosynthesis is the process of creating new atomic nuclei from pre-existing
nucleons (protons and neutrons). The first nuclei were formed about three minutes after the Big
Bang, through the process of Big Bang nucleosynthesis. With the formation of stars, heavier
nuclei were created through stellar nucleosynthesis, a process that has continued to the present.
Supernova nucleosynthesis and cosmic ray spallation are also significant sources of nuclei. In
addition to these major processes in space, many minor natural processes continue to produce
small amounts of new elements on Earth. These nuclides are naturally produced on a continuing
basis via the decay of long-lived primordial radionuclides (via radiogenesis), from natural
nuclear reactions in cosmic ray bombardment of elements on Earth (cosmogenic nuclides), and
from other natural nuclear reactions powered by particles from radioactive decay, (producing
nucleogenic nuclides). In modern theory, there are a number of astrophysical processes which
are believed to.
mole fractions of N2,O2,CO2,CO are respectively 0.pdfinfo54093
mole fractions of N2,O2,CO2,CO are respectively 0.71,0.12,0.12,0.05 in dry air in
wet basis mole fraction of total dry air=1-0.16=0.84 mole fractions will
be=0.71*0.84,0.12*0.84,0.12*0.84,0.05*0.84= 0.5964 0.1008 0.1008 0.042 0.1600
Solution
mole fractions of N2,O2,CO2,CO are respectively 0.71,0.12,0.12,0.05 in dry air in
wet basis mole fraction of total dry air=1-0.16=0.84 mole fractions will
be=0.71*0.84,0.12*0.84,0.12*0.84,0.05*0.84= 0.5964 0.1008 0.1008 0.042 0.1600.
Lewis diagrams, also called electron-dot diagrams.pdfinfo54093
Lewis diagrams, also called electron-dot diagrams, are used to represent paired and
unpaired valence (outer shell) electrons in an atom The Lewis structure is used to represent the
covalent bonding of a molecule or ion. Covalent bonds are a type of chemical bonding formed by
the sharing of electrons in the valence shells of the atoms. Covalent bonds are stronger than the
electrostatic interactions of ionic bonds, but keep in mind that we are not considering ionic
compounds as we go through this chapter. Most bonding is not purely covalent, but is polar
covalent (unequal sharing) based on electronegativity differences. The atoms in a Lewis
structure tend to share electrons so that each atom has eight electrons (the octet rule). The octet
rule states that an atom in a molecule will be stable when there are eight electrons in its outer
shell (with the exception of hydrogen, in which the outer shell is satisfied with two electrons).
Lewis structures display the electrons of the outer shells because these are the ones that
participate in making chemical bonds.
Solution
Lewis diagrams, also called electron-dot diagrams, are used to represent paired and
unpaired valence (outer shell) electrons in an atom The Lewis structure is used to represent the
covalent bonding of a molecule or ion. Covalent bonds are a type of chemical bonding formed by
the sharing of electrons in the valence shells of the atoms. Covalent bonds are stronger than the
electrostatic interactions of ionic bonds, but keep in mind that we are not considering ionic
compounds as we go through this chapter. Most bonding is not purely covalent, but is polar
covalent (unequal sharing) based on electronegativity differences. The atoms in a Lewis
structure tend to share electrons so that each atom has eight electrons (the octet rule). The octet
rule states that an atom in a molecule will be stable when there are eight electrons in its outer
shell (with the exception of hydrogen, in which the outer shell is satisfied with two electrons).
Lewis structures display the electrons of the outer shells because these are the ones that
participate in making chemical bonds..
1. The circulatory system carriesD) All of the aboveThe circula.pdfinfo54093
1. The circulatory system carries:
D) All of the above
The circulatory system delivers nutrients, gases -oxygen and Carbon dioxide, and other needed
substances
2. The structure that conveys sperm from the testis to the vas deferens is the _______
A) Epididymis
epididymis connects a testicle to a vas deferens in the male reproductive system and conveys
sperm from the testis to the vas deferens.
Solution
1. The circulatory system carries:
D) All of the above
The circulatory system delivers nutrients, gases -oxygen and Carbon dioxide, and other needed
substances
2. The structure that conveys sperm from the testis to the vas deferens is the _______
A) Epididymis
epididymis connects a testicle to a vas deferens in the male reproductive system and conveys
sperm from the testis to the vas deferens..
1. Nucleoside reverse transcriptase inhibitors may interfere with DN.pdfinfo54093
1. Nucleoside reverse transcriptase inhibitors may interfere with DNA replication by the host,
not just by the virus.
2. A. A mucociliary blanket to remove contaminants, secretion of lysozyme and other
antimicrobial chemicals, and alveolar macrophages helps protect against airborne diseases.
Respiratory track is guarded by different defence system like cilia and mucus glands in nasal
tract , and presence of alveolar macrophages. All these defence system prevent attack from
pathogens.
3. The genetic material is called a prophage and the change in the host cell\'s properties is called
lysogenic conversion.
Prophage is the genetic material of a bacteriophage, incorporated into the genome of a bacterium
and able to produce phages if specifically activated.
4. The surface antigens of a virus become drastically changed as a result of the combining of
genetic material from different viruses without one organism.
Antigenic shift is the process by which two or more different strains of a virus, or strains of two
or more different viruses, combine to form a new subtype having a mixture of the surface
antigens of the two or more original strains.
Solution
1. Nucleoside reverse transcriptase inhibitors may interfere with DNA replication by the host,
not just by the virus.
2. A. A mucociliary blanket to remove contaminants, secretion of lysozyme and other
antimicrobial chemicals, and alveolar macrophages helps protect against airborne diseases.
Respiratory track is guarded by different defence system like cilia and mucus glands in nasal
tract , and presence of alveolar macrophages. All these defence system prevent attack from
pathogens.
3. The genetic material is called a prophage and the change in the host cell\'s properties is called
lysogenic conversion.
Prophage is the genetic material of a bacteriophage, incorporated into the genome of a bacterium
and able to produce phages if specifically activated.
4. The surface antigens of a virus become drastically changed as a result of the combining of
genetic material from different viruses without one organism.
Antigenic shift is the process by which two or more different strains of a virus, or strains of two
or more different viruses, combine to form a new subtype having a mixture of the surface
antigens of the two or more original strains..
1) Ba2+ and I- no precipitate 2) Ag+ and NO3- no precipitate.pdfinfo54093
1) Ba2+ and I-
no precipitate
2) Ag+ and NO3-
no precipitate
3) Na+ and (SO4)2-
no precipitate
4) Cu+ and S2-
Cu2S precipitate
color: dark grey
reaction:
2Cu+(aq) + S2-(aq) ---> Cu2S(s)
Solution
1) Ba2+ and I-
no precipitate
2) Ag+ and NO3-
no precipitate
3) Na+ and (SO4)2-
no precipitate
4) Cu+ and S2-
Cu2S precipitate
color: dark grey
reaction:
2Cu+(aq) + S2-(aq) ---> Cu2S(s).
SO3 (the molecule is trigonal-planar, so the dipo.pdfinfo54093
SO3 (the molecule is trigonal-planar, so the dipole moments of the bonds
compensate
Solution
SO3 (the molecule is trigonal-planar, so the dipole moments of the bonds
compensate.
Nucleosynthesis is the process of creating new at.pdfinfo54093
Nucleosynthesis is the process of creating new atomic nuclei from pre-existing
nucleons (protons and neutrons). The first nuclei were formed about three minutes after the Big
Bang, through the process of Big Bang nucleosynthesis. With the formation of stars, heavier
nuclei were created through stellar nucleosynthesis, a process that has continued to the present.
Supernova nucleosynthesis and cosmic ray spallation are also significant sources of nuclei. In
addition to these major processes in space, many minor natural processes continue to produce
small amounts of new elements on Earth. These nuclides are naturally produced on a continuing
basis via the decay of long-lived primordial radionuclides (via radiogenesis), from natural
nuclear reactions in cosmic ray bombardment of elements on Earth (cosmogenic nuclides), and
from other natural nuclear reactions powered by particles from radioactive decay, (producing
nucleogenic nuclides). In modern theory, there are a number of astrophysical processes which
are believed to be responsible for nucleosynthesis in the universe. The majority of these occur
within the hot matter inside stars. The successive nuclear fusion processes which occur inside
stars are known as hydrogen burning (via the proton-proton chain or the CNO cycle), helium
burning, carbon burning, neon burning, oxygen burning and silicon burning. These processes are
able to create elements up to iron and nickel, the region of the isotopes having the highest
binding energy per nucleon. Heavier elements can be assembled within stars by a neutron
capture process known as the s process or in explosive environments, such as supernovae, by a
number of processes. Some of the more important of these include the r process, which involves
rapid neutron captures, the rp process, which involves rapid proton captures, and the p process
(sometimes known as the gamma process), which involves photodisintegration of existing nuclei.
Solution
Nucleosynthesis is the process of creating new atomic nuclei from pre-existing
nucleons (protons and neutrons). The first nuclei were formed about three minutes after the Big
Bang, through the process of Big Bang nucleosynthesis. With the formation of stars, heavier
nuclei were created through stellar nucleosynthesis, a process that has continued to the present.
Supernova nucleosynthesis and cosmic ray spallation are also significant sources of nuclei. In
addition to these major processes in space, many minor natural processes continue to produce
small amounts of new elements on Earth. These nuclides are naturally produced on a continuing
basis via the decay of long-lived primordial radionuclides (via radiogenesis), from natural
nuclear reactions in cosmic ray bombardment of elements on Earth (cosmogenic nuclides), and
from other natural nuclear reactions powered by particles from radioactive decay, (producing
nucleogenic nuclides). In modern theory, there are a number of astrophysical processes which
are believed to.
mole fractions of N2,O2,CO2,CO are respectively 0.pdfinfo54093
mole fractions of N2,O2,CO2,CO are respectively 0.71,0.12,0.12,0.05 in dry air in
wet basis mole fraction of total dry air=1-0.16=0.84 mole fractions will
be=0.71*0.84,0.12*0.84,0.12*0.84,0.05*0.84= 0.5964 0.1008 0.1008 0.042 0.1600
Solution
mole fractions of N2,O2,CO2,CO are respectively 0.71,0.12,0.12,0.05 in dry air in
wet basis mole fraction of total dry air=1-0.16=0.84 mole fractions will
be=0.71*0.84,0.12*0.84,0.12*0.84,0.05*0.84= 0.5964 0.1008 0.1008 0.042 0.1600.
Lewis diagrams, also called electron-dot diagrams.pdfinfo54093
Lewis diagrams, also called electron-dot diagrams, are used to represent paired and
unpaired valence (outer shell) electrons in an atom The Lewis structure is used to represent the
covalent bonding of a molecule or ion. Covalent bonds are a type of chemical bonding formed by
the sharing of electrons in the valence shells of the atoms. Covalent bonds are stronger than the
electrostatic interactions of ionic bonds, but keep in mind that we are not considering ionic
compounds as we go through this chapter. Most bonding is not purely covalent, but is polar
covalent (unequal sharing) based on electronegativity differences. The atoms in a Lewis
structure tend to share electrons so that each atom has eight electrons (the octet rule). The octet
rule states that an atom in a molecule will be stable when there are eight electrons in its outer
shell (with the exception of hydrogen, in which the outer shell is satisfied with two electrons).
Lewis structures display the electrons of the outer shells because these are the ones that
participate in making chemical bonds.
Solution
Lewis diagrams, also called electron-dot diagrams, are used to represent paired and
unpaired valence (outer shell) electrons in an atom The Lewis structure is used to represent the
covalent bonding of a molecule or ion. Covalent bonds are a type of chemical bonding formed by
the sharing of electrons in the valence shells of the atoms. Covalent bonds are stronger than the
electrostatic interactions of ionic bonds, but keep in mind that we are not considering ionic
compounds as we go through this chapter. Most bonding is not purely covalent, but is polar
covalent (unequal sharing) based on electronegativity differences. The atoms in a Lewis
structure tend to share electrons so that each atom has eight electrons (the octet rule). The octet
rule states that an atom in a molecule will be stable when there are eight electrons in its outer
shell (with the exception of hydrogen, in which the outer shell is satisfied with two electrons).
Lewis structures display the electrons of the outer shells because these are the ones that
participate in making chemical bonds..
In mammals, the urea cycle takes place primarily .pdfinfo54093
In mammals, the urea cycle takes place primarily in the liver, and to a lesser extent
in the kidney.
Solution
In mammals, the urea cycle takes place primarily in the liver, and to a lesser extent
in the kidney..
We looked for features including mobile apps, mobile boarding passes.pdfinfo54093
We looked for features including mobile apps, mobile boarding passes, online check-in, Wi-Fi,
video on demand, personal device (streaming) entertainment, live television, and power, as well
the use of social media and any extras like airport upgrades.
Legacy carriers American, Delta, and United are often viewed as the dinosaurs of the industry.
They are saddled with huge operating costs and fleets that have different types of aircrafts, which
means they are slower to implement changes.
But changes are happening. All three (Delta especially) are aggressively upgrading their planes
with Wi-Fi, advanced video-on-demand systems, streaming content, and power outlets, as well
as improved Web and app experiences. United, for example, recently announced Wi-Fi and
personal device entertainment will be installed in its fleet of regional jets. Implementation is a bit
haphazard (you never really know which plane actually has Wi-Fi, for example), and rollout will
last into next year (and beyond), but the legacy carriers definitely deserve some praise, after
years of declining service.
Solution
We looked for features including mobile apps, mobile boarding passes, online check-in, Wi-Fi,
video on demand, personal device (streaming) entertainment, live television, and power, as well
the use of social media and any extras like airport upgrades.
Legacy carriers American, Delta, and United are often viewed as the dinosaurs of the industry.
They are saddled with huge operating costs and fleets that have different types of aircrafts, which
means they are slower to implement changes.
But changes are happening. All three (Delta especially) are aggressively upgrading their planes
with Wi-Fi, advanced video-on-demand systems, streaming content, and power outlets, as well
as improved Web and app experiences. United, for example, recently announced Wi-Fi and
personal device entertainment will be installed in its fleet of regional jets. Implementation is a bit
haphazard (you never really know which plane actually has Wi-Fi, for example), and rollout will
last into next year (and beyond), but the legacy carriers definitely deserve some praise, after
years of declining service..
calculate the carbons possessing hydrogens at 3 b.pdfinfo54093
calculate the carbons possessing hydrogens at 3 bond distance from other carbons...
thats it!!
Solution
calculate the carbons possessing hydrogens at 3 bond distance from other carbons...
thats it!!.
Recent IT-related strategic positions–Chief Information Officer (.pdfinfo54093
Recent IT-related strategic positions:
–Chief Information Officer (CIO)
–Chief Technology Officer (CTO)
–Chief Security Officer (CSO)
–Chief Privacy Officer (CPO)
–Chief Knowledge Office (CKO)
•Chief Information Officer (CIO) —Oversees all uses of IT and ensures the strategic alignment
of IT with business goals and objectives.
•Broad CIO functions include:
–Manager—Ensuring the delivery of all IT projects, on time and within budget
–Leader—Ensuring the strategic vision of IT is in line with the strategic vision of the
organization
–Communicator—Building and maintaining strong executive relationships
•Chief Technology Officer (CTO)—Responsible for ensuring the throughput, speed, accuracy,
availability, and reliability of IT.
•Chief Security Officer (CSO)—Responsible for ensuring the security of IT systems
•Chief Privacy Officer (CPO)—Responsible for ensuring the ethical and legal use of information
•Chief Knowledge Office (CKO)—Responsible for collecting, maintaining, and distributing the
organization’s knowledge
Solution
Recent IT-related strategic positions:
–Chief Information Officer (CIO)
–Chief Technology Officer (CTO)
–Chief Security Officer (CSO)
–Chief Privacy Officer (CPO)
–Chief Knowledge Office (CKO)
•Chief Information Officer (CIO) —Oversees all uses of IT and ensures the strategic alignment
of IT with business goals and objectives.
•Broad CIO functions include:
–Manager—Ensuring the delivery of all IT projects, on time and within budget
–Leader—Ensuring the strategic vision of IT is in line with the strategic vision of the
organization
–Communicator—Building and maintaining strong executive relationships
•Chief Technology Officer (CTO)—Responsible for ensuring the throughput, speed, accuracy,
availability, and reliability of IT.
•Chief Security Officer (CSO)—Responsible for ensuring the security of IT systems
•Chief Privacy Officer (CPO)—Responsible for ensuring the ethical and legal use of information
•Chief Knowledge Office (CKO)—Responsible for collecting, maintaining, and distributing the
organization’s knowledge.
Ion Selective Electrodes (ISE) are membrane electrodes that respond .pdfinfo54093
Ion Selective Electrodes (ISE) are membrane electrodes that respond selectively to ions in the
presence of others. These include probes that measure specific ions and gases in solution. The
most commonly used ISE is the pH probe.
An ion-selective electrode (ISE), also known as a specific ion electrode (SIE), is a transducer (or
sensor) that converts the activity of a specific ion dissolved in a solution into an electrical
potential, which can be measured by a voltmeter or pH meter.
Other ions that can be measured include fluoride, bromide, cadmium, and gases in solution such
as ammonia, carbon dioxide, and nitrogen oxide.
The use of Ion Selective Electrodes in environmental analysis offer several advantages over
other methods of analysis. First, the cost of initial setup to make analysis is relatively low. The
basic ISE setup includes a meter (capable of reading millivolts), a probe (selective for each
analyte of interest), and various consumables used for pH or ionic strength adjustments.
Glass Ion-Selective Electrodes
The first commercial glass electrodes were manufactured using Corning 015, a glass with a
composition that is approximately 22% Na2O, 6% CaO and 72% SiO2. When immersed in an
aqueous solution for several hours, the outer approximately 10 nm of the membrane’s surface
becomes hydrated, resulting in the formation of negatively charged sites, —SiO–. Sodium ions,
Na+, serve as counter ions.
Solid-State Ion-Selective Electrodes
A solid-state ion-selective electrode uses a membrane consisting of either a polycrystalline
inorganic salt or a single crystal of an inorganic salt. We can fashion a polycrystalline solid-state
ion-selective electrode by sealing a 1–2 mm thick pellet of Ag2S—or a mixture of Ag2S and a
second silver salt or another metal sulfide—into the end of a nonconducting plastic cylinder,
filling the cylinder with an internal solution containing the analyte, and placing a reference
electrode into the internal solution.
Liquid-Based Ion-Selective Electrodes
Another class of ion-selective electrodes uses a hydrophobic membrane containing a liquid
organic complexing agent that reacts selectively with the analyte. Three types of organic
complexing agents have been used: cation exchangers, anion exchangers, and neutral ionophores.
A membrane potential exists if the analyte’s activity is different on the two sides of the
membrane. Current is carried through the membrane by the analyte.
Solution
Ion Selective Electrodes (ISE) are membrane electrodes that respond selectively to ions in the
presence of others. These include probes that measure specific ions and gases in solution. The
most commonly used ISE is the pH probe.
An ion-selective electrode (ISE), also known as a specific ion electrode (SIE), is a transducer (or
sensor) that converts the activity of a specific ion dissolved in a solution into an electrical
potential, which can be measured by a voltmeter or pH meter.
Other ions that can be measured include fluoride, brom.
InsertionSorting.java
import java.util.Arrays;
import java.util.Scanner;
public class InsertionSorting {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner scan = new Scanner(System.in);
System.out.println(\"Please enter number of letters:\");
int n = scan.nextInt();
char letters[] = new char[n];
for(int i=0; i -1) && ( charArray [i] > key ) ) {
charArray [i+1] = charArray [i];
i--;
}
charArray[i+1] = key;
}
}
}
Output:
Please enter number of letters:
5
Enter letter:
f
Enter letter:
s
Enter letter:
w
Enter letter:
a
Enter letter:
b
Before Sorting: [f, s, w, a, b]
After insertion Sorting: [a, b, f, s, w]
BubbleSorting.java
import java.util.Arrays;
import java.util.Scanner;
public class BubbleSorting {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner scan = new Scanner(System.in);
System.out.println(\"Please enter number of letters:\");
int n = scan.nextInt();
char letters[] = new char[n];
for(int i=0; i array [1] swap it.
* 3. Compare array[1] & array[2]
* 4. If array[1] > array[2] swap it.
* ...
* 5. Compare array[n-1] & array[n]
* 6. if [n-1] > array[n] then swap it.
*
* After this step we will have largest element at the last index.
*
* Repeat the same steps for array[1] to array[n-1]
*
*/
int n = charArray.length;
char temp;
for(int i=0; i < n; i++){
for(int j=1; j < (n-i); j++){
if(charArray[j-1] > charArray[j]){
//swap the elements!
temp = charArray[j-1];
charArray[j-1] = charArray[j];
charArray[j] = temp;
}
}
}
}
}
Output:
Please enter number of letters:
5
Enter letter:
f
Enter letter:
d
Enter letter:
w
Enter letter:
a
Enter letter:
b
Before Sorting: [f, d, w, a, b]
After Bubble Sorting: [a, b, d, f, w]
Solution
InsertionSorting.java
import java.util.Arrays;
import java.util.Scanner;
public class InsertionSorting {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner scan = new Scanner(System.in);
System.out.println(\"Please enter number of letters:\");
int n = scan.nextInt();
char letters[] = new char[n];
for(int i=0; i -1) && ( charArray [i] > key ) ) {
charArray [i+1] = charArray [i];
i--;
}
charArray[i+1] = key;
}
}
}
Output:
Please enter number of letters:
5
Enter letter:
f
Enter letter:
s
Enter letter:
w
Enter letter:
a
Enter letter:
b
Before Sorting: [f, s, w, a, b]
After insertion Sorting: [a, b, f, s, w]
BubbleSorting.java
import java.util.Arrays;
import java.util.Scanner;
public class BubbleSorting {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner scan = new Scanner(System.in);
System.out.println(\"Please enter number of letters:\");
int n = scan.nextInt();
char letters[] = new char[n];
for(int i=0; i array [1] swap it.
* 3. Compare array[1] & array[2]
* 4. If array[1] > array[2] swap it.
* ...
* 5. Compare array[n-1] & array[n]
* 6. if [n-1] > array[n] then swap it.
*
* After this step we will have largest elem.
Hubs and switches connect computers to create a LAN.HubA Hub co.pdfinfo54093
Hubs and switches connect computers to create a LAN.
Hub:
A Hub connects multiple computers together in a Local Area Network (LAN). All information
sent to the hub is then sent through each port to every device in the network.
When a hub receives a packet at one of its ports from a PC on the network, it transmits the
packet to all of its ports and, thus, to all of the other PCs on the network. This mean bandwidth
was wasted because all traffic was sent to all ports.
If two or more PCs on the network try to send packets at the same time then a collision occur.
When that happens all of the PCs have to retransmit with different time to resolve the conflict.
The process is prescribed in the Ethernet Carrier Sense Multiple Access with Collision Detection
(CSMA/CD) protocol.
Switch:
A switch is used to connect various network segments. In telecommunications, a switch is a
network device that selects a path or circuit for sending a unit of data to its next destination. A
switch may also include the function of the router, a device or program that can determine the
route and specifically what adjacent network point the data should be sent to. In general, a switch
is a simpler and faster mechanism than a router, which requires knowledge about the network
and how to determine the route. In networks, a device that filters and forwards packets between
LAN segments. Switches operate at the data link layer and sometimes the network layer of the
OSI Reference Model and therefore support any packet protocol. LANs that use switches to join
segments are called switched LAN.
The main difference between Switch and Hub is, A switch is effectively a higher-performance
alternative to a hub. People tend to benefit from a switch over a hub if their home network has
four or more computers, or if they want to use their home network for applications that generate
significant amounts of network traffic, like multiplayer games or heavy music file sharing.
Hubs operate using a broadcast model and switches operate using a virtual circuit model. When
four computers are connected to a hub, for example, and two of those computers communicate
with each other, hubs simply pass through all network traffic to each of the four computers.
Switches, on the other hand, are capable of determining the destination of each individual traffic
element and selectively forwarding data to the one computer that actually needs it. By generating
less network traffic in delivering messages, a switch performs better than a hub on busy
networks.
Solution
Hubs and switches connect computers to create a LAN.
Hub:
A Hub connects multiple computers together in a Local Area Network (LAN). All information
sent to the hub is then sent through each port to every device in the network.
When a hub receives a packet at one of its ports from a PC on the network, it transmits the
packet to all of its ports and, thus, to all of the other PCs on the network. This mean bandwidth
was wasted because all traffic was s.
All of them. Ionic composition will be important .pdfinfo54093
All of them. Ionic composition will be important for solid-liquid phase changes,
molecular composition will be important for liquid-gas phase changes.
Solution
All of them. Ionic composition will be important for solid-liquid phase changes,
molecular composition will be important for liquid-gas phase changes..
Given 1(1!)+2(2!)+3(3!)+...+n(n!) = (n+1)!-1Step1 lets prove it.pdfinfo54093
Given 1(1!)+2(2!)+3(3!)+...+n(n!) = (n+1)!-1
Step:1
lets prove it is true for n=1
1(1!) = 1(1) = 1 and (1+1)!-1 = 2!-1 = 2-1 = 1
L.H.S=R.H.S
Step:2
assume it is true for n=k
1(1!)+2(2!)+3(3!)+...+k(k!) = (k+1)!-1--------->(1)
We need to show that it is true for k+1
1(1!)+2(2!)+3(3!)+...+(k+1)(k+1)! (k+2)!-1 -------->(2)
We add (k+1)(k+1)! to both sides of (1)
1(1!)+2(2!)+3(3!)+...+k(k!)+(k+1)(k+1)! = (k+1)!-1+(k+1)(k+1)! =
= (k+1)!+(k+1)(k+1)!-1 =
= (k+1)![1+(k+1)]-1 =
= (k+1)![1+k+1]-1 =
= (k+1)!(k+2)-1 =
= (k+2)!-1
so from the mathematical induction L.H.S=R.H.S
Solution
Given 1(1!)+2(2!)+3(3!)+...+n(n!) = (n+1)!-1
Step:1
lets prove it is true for n=1
1(1!) = 1(1) = 1 and (1+1)!-1 = 2!-1 = 2-1 = 1
L.H.S=R.H.S
Step:2
assume it is true for n=k
1(1!)+2(2!)+3(3!)+...+k(k!) = (k+1)!-1--------->(1)
We need to show that it is true for k+1
1(1!)+2(2!)+3(3!)+...+(k+1)(k+1)! (k+2)!-1 -------->(2)
We add (k+1)(k+1)! to both sides of (1)
1(1!)+2(2!)+3(3!)+...+k(k!)+(k+1)(k+1)! = (k+1)!-1+(k+1)(k+1)! =
= (k+1)!+(k+1)(k+1)!-1 =
= (k+1)![1+(k+1)]-1 =
= (k+1)![1+k+1]-1 =
= (k+1)!(k+2)-1 =
= (k+2)!-1
so from the mathematical induction L.H.S=R.H.S.
Given that A is a commutative ring.J is an ideal of ALet y be an.pdfinfo54093
Given that A is a commutative ring.
J is an ideal of A
Let y be any element in A/J.
As J is an ideal J is an additive group hence multiplicative identity 1 is not in J and is in A/J
To prove that A/Jis a commutative ring it is enough to prove that A/J is a subring. (As A is
commutative A/R is also commutative)
A/J being commutative and having unit element is closed under multiplication.
Also it is closed under subtraction.
For if y is in A/J, and z in A/J, y-z has to be in A/J as if not then it has to be in J.
which means y-z belongs to J say k then k+z = y has to be in J which is a contradiction.
Hence A/J is closed under subtraction, shares same unity with A and commutative because
subset of a commutative ring A.
A/J is also a commutative ring with unity
Solution
Given that A is a commutative ring.
J is an ideal of A
Let y be any element in A/J.
As J is an ideal J is an additive group hence multiplicative identity 1 is not in J and is in A/J
To prove that A/Jis a commutative ring it is enough to prove that A/J is a subring. (As A is
commutative A/R is also commutative)
A/J being commutative and having unit element is closed under multiplication.
Also it is closed under subtraction.
For if y is in A/J, and z in A/J, y-z has to be in A/J as if not then it has to be in J.
which means y-z belongs to J say k then k+z = y has to be in J which is a contradiction.
Hence A/J is closed under subtraction, shares same unity with A and commutative because
subset of a commutative ring A.
A/J is also a commutative ring with unity.
Diatoms and Coccolithophores have silica shell in their body, so it .pdfinfo54093
Diatoms and Coccolithophores have silica shell in their body, so it can dissolve into warm water.
That’s why they choose to live in cold water. Dinoflagellates do not have any hard shell, so they
can live in warm water. The option 1 is true.
Solution
Diatoms and Coccolithophores have silica shell in their body, so it can dissolve into warm water.
That’s why they choose to live in cold water. Dinoflagellates do not have any hard shell, so they
can live in warm water. The option 1 is true..
Cloud storage is based on highly virtualized infrastructure and is l.pdfinfo54093
Cloud storage is based on highly virtualized infrastructure and is like broader cloud computing in
terms of accessible interfaces, near-instant elasticity and scalability, multi-tenancy, and metered
resources. Cloud storage services can be utilized from an off-premises service like Amazon S3 or
deployed on-premises like ViON Capacity Services.
Cloud storage typically refers to a hosted object storage service, but the term has extented to
include other types of data storage that are now available as a service, like block storage.
Various cloud based services are:
Infrastructure as a Service (IaaS): Organizations make use of the boundless storage potential of
the cloud infrastructure. They can expand and compress the storage space as required.
Software as a Service (SaaS): It allows people to access the functionality of particular software
without the intension of storage.
Platform as a Service (PaaS): The cloud service platform allow the companies to run the
applications without worrying about maintaining hard drives and servers.
Utility Services: If the Companies have to store more data then the data can be stored distantly
and can also create a virtual data center.
Managed Services: These are applications used by the cloud service providers, such as anti-spam
service.
Solution
Cloud storage is based on highly virtualized infrastructure and is like broader cloud computing in
terms of accessible interfaces, near-instant elasticity and scalability, multi-tenancy, and metered
resources. Cloud storage services can be utilized from an off-premises service like Amazon S3 or
deployed on-premises like ViON Capacity Services.
Cloud storage typically refers to a hosted object storage service, but the term has extented to
include other types of data storage that are now available as a service, like block storage.
Various cloud based services are:
Infrastructure as a Service (IaaS): Organizations make use of the boundless storage potential of
the cloud infrastructure. They can expand and compress the storage space as required.
Software as a Service (SaaS): It allows people to access the functionality of particular software
without the intension of storage.
Platform as a Service (PaaS): The cloud service platform allow the companies to run the
applications without worrying about maintaining hard drives and servers.
Utility Services: If the Companies have to store more data then the data can be stored distantly
and can also create a virtual data center.
Managed Services: These are applications used by the cloud service providers, such as anti-spam
service..
B. Packets are delivered to all interfaces identified with the addre.pdfinfo54093
B. Packets are delivered to all interfaces identified with the address. This is also called a one-to-
many address.
Solution
B. Packets are delivered to all interfaces identified with the address. This is also called a one-to-
many address..
A tRNA is activated when their complementary amin.pdfinfo54093
A tRNA is activated when their complementary amino acids are attached to them.
Solution
A tRNA is activated when their complementary amino acids are attached to them..
The Roman Empire A Historical Colossus.pdfkaushalkr1407
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.
In mammals, the urea cycle takes place primarily .pdfinfo54093
In mammals, the urea cycle takes place primarily in the liver, and to a lesser extent
in the kidney.
Solution
In mammals, the urea cycle takes place primarily in the liver, and to a lesser extent
in the kidney..
We looked for features including mobile apps, mobile boarding passes.pdfinfo54093
We looked for features including mobile apps, mobile boarding passes, online check-in, Wi-Fi,
video on demand, personal device (streaming) entertainment, live television, and power, as well
the use of social media and any extras like airport upgrades.
Legacy carriers American, Delta, and United are often viewed as the dinosaurs of the industry.
They are saddled with huge operating costs and fleets that have different types of aircrafts, which
means they are slower to implement changes.
But changes are happening. All three (Delta especially) are aggressively upgrading their planes
with Wi-Fi, advanced video-on-demand systems, streaming content, and power outlets, as well
as improved Web and app experiences. United, for example, recently announced Wi-Fi and
personal device entertainment will be installed in its fleet of regional jets. Implementation is a bit
haphazard (you never really know which plane actually has Wi-Fi, for example), and rollout will
last into next year (and beyond), but the legacy carriers definitely deserve some praise, after
years of declining service.
Solution
We looked for features including mobile apps, mobile boarding passes, online check-in, Wi-Fi,
video on demand, personal device (streaming) entertainment, live television, and power, as well
the use of social media and any extras like airport upgrades.
Legacy carriers American, Delta, and United are often viewed as the dinosaurs of the industry.
They are saddled with huge operating costs and fleets that have different types of aircrafts, which
means they are slower to implement changes.
But changes are happening. All three (Delta especially) are aggressively upgrading their planes
with Wi-Fi, advanced video-on-demand systems, streaming content, and power outlets, as well
as improved Web and app experiences. United, for example, recently announced Wi-Fi and
personal device entertainment will be installed in its fleet of regional jets. Implementation is a bit
haphazard (you never really know which plane actually has Wi-Fi, for example), and rollout will
last into next year (and beyond), but the legacy carriers definitely deserve some praise, after
years of declining service..
calculate the carbons possessing hydrogens at 3 b.pdfinfo54093
calculate the carbons possessing hydrogens at 3 bond distance from other carbons...
thats it!!
Solution
calculate the carbons possessing hydrogens at 3 bond distance from other carbons...
thats it!!.
Recent IT-related strategic positions–Chief Information Officer (.pdfinfo54093
Recent IT-related strategic positions:
–Chief Information Officer (CIO)
–Chief Technology Officer (CTO)
–Chief Security Officer (CSO)
–Chief Privacy Officer (CPO)
–Chief Knowledge Office (CKO)
•Chief Information Officer (CIO) —Oversees all uses of IT and ensures the strategic alignment
of IT with business goals and objectives.
•Broad CIO functions include:
–Manager—Ensuring the delivery of all IT projects, on time and within budget
–Leader—Ensuring the strategic vision of IT is in line with the strategic vision of the
organization
–Communicator—Building and maintaining strong executive relationships
•Chief Technology Officer (CTO)—Responsible for ensuring the throughput, speed, accuracy,
availability, and reliability of IT.
•Chief Security Officer (CSO)—Responsible for ensuring the security of IT systems
•Chief Privacy Officer (CPO)—Responsible for ensuring the ethical and legal use of information
•Chief Knowledge Office (CKO)—Responsible for collecting, maintaining, and distributing the
organization’s knowledge
Solution
Recent IT-related strategic positions:
–Chief Information Officer (CIO)
–Chief Technology Officer (CTO)
–Chief Security Officer (CSO)
–Chief Privacy Officer (CPO)
–Chief Knowledge Office (CKO)
•Chief Information Officer (CIO) —Oversees all uses of IT and ensures the strategic alignment
of IT with business goals and objectives.
•Broad CIO functions include:
–Manager—Ensuring the delivery of all IT projects, on time and within budget
–Leader—Ensuring the strategic vision of IT is in line with the strategic vision of the
organization
–Communicator—Building and maintaining strong executive relationships
•Chief Technology Officer (CTO)—Responsible for ensuring the throughput, speed, accuracy,
availability, and reliability of IT.
•Chief Security Officer (CSO)—Responsible for ensuring the security of IT systems
•Chief Privacy Officer (CPO)—Responsible for ensuring the ethical and legal use of information
•Chief Knowledge Office (CKO)—Responsible for collecting, maintaining, and distributing the
organization’s knowledge.
Ion Selective Electrodes (ISE) are membrane electrodes that respond .pdfinfo54093
Ion Selective Electrodes (ISE) are membrane electrodes that respond selectively to ions in the
presence of others. These include probes that measure specific ions and gases in solution. The
most commonly used ISE is the pH probe.
An ion-selective electrode (ISE), also known as a specific ion electrode (SIE), is a transducer (or
sensor) that converts the activity of a specific ion dissolved in a solution into an electrical
potential, which can be measured by a voltmeter or pH meter.
Other ions that can be measured include fluoride, bromide, cadmium, and gases in solution such
as ammonia, carbon dioxide, and nitrogen oxide.
The use of Ion Selective Electrodes in environmental analysis offer several advantages over
other methods of analysis. First, the cost of initial setup to make analysis is relatively low. The
basic ISE setup includes a meter (capable of reading millivolts), a probe (selective for each
analyte of interest), and various consumables used for pH or ionic strength adjustments.
Glass Ion-Selective Electrodes
The first commercial glass electrodes were manufactured using Corning 015, a glass with a
composition that is approximately 22% Na2O, 6% CaO and 72% SiO2. When immersed in an
aqueous solution for several hours, the outer approximately 10 nm of the membrane’s surface
becomes hydrated, resulting in the formation of negatively charged sites, —SiO–. Sodium ions,
Na+, serve as counter ions.
Solid-State Ion-Selective Electrodes
A solid-state ion-selective electrode uses a membrane consisting of either a polycrystalline
inorganic salt or a single crystal of an inorganic salt. We can fashion a polycrystalline solid-state
ion-selective electrode by sealing a 1–2 mm thick pellet of Ag2S—or a mixture of Ag2S and a
second silver salt or another metal sulfide—into the end of a nonconducting plastic cylinder,
filling the cylinder with an internal solution containing the analyte, and placing a reference
electrode into the internal solution.
Liquid-Based Ion-Selective Electrodes
Another class of ion-selective electrodes uses a hydrophobic membrane containing a liquid
organic complexing agent that reacts selectively with the analyte. Three types of organic
complexing agents have been used: cation exchangers, anion exchangers, and neutral ionophores.
A membrane potential exists if the analyte’s activity is different on the two sides of the
membrane. Current is carried through the membrane by the analyte.
Solution
Ion Selective Electrodes (ISE) are membrane electrodes that respond selectively to ions in the
presence of others. These include probes that measure specific ions and gases in solution. The
most commonly used ISE is the pH probe.
An ion-selective electrode (ISE), also known as a specific ion electrode (SIE), is a transducer (or
sensor) that converts the activity of a specific ion dissolved in a solution into an electrical
potential, which can be measured by a voltmeter or pH meter.
Other ions that can be measured include fluoride, brom.
InsertionSorting.java
import java.util.Arrays;
import java.util.Scanner;
public class InsertionSorting {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner scan = new Scanner(System.in);
System.out.println(\"Please enter number of letters:\");
int n = scan.nextInt();
char letters[] = new char[n];
for(int i=0; i -1) && ( charArray [i] > key ) ) {
charArray [i+1] = charArray [i];
i--;
}
charArray[i+1] = key;
}
}
}
Output:
Please enter number of letters:
5
Enter letter:
f
Enter letter:
s
Enter letter:
w
Enter letter:
a
Enter letter:
b
Before Sorting: [f, s, w, a, b]
After insertion Sorting: [a, b, f, s, w]
BubbleSorting.java
import java.util.Arrays;
import java.util.Scanner;
public class BubbleSorting {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner scan = new Scanner(System.in);
System.out.println(\"Please enter number of letters:\");
int n = scan.nextInt();
char letters[] = new char[n];
for(int i=0; i array [1] swap it.
* 3. Compare array[1] & array[2]
* 4. If array[1] > array[2] swap it.
* ...
* 5. Compare array[n-1] & array[n]
* 6. if [n-1] > array[n] then swap it.
*
* After this step we will have largest element at the last index.
*
* Repeat the same steps for array[1] to array[n-1]
*
*/
int n = charArray.length;
char temp;
for(int i=0; i < n; i++){
for(int j=1; j < (n-i); j++){
if(charArray[j-1] > charArray[j]){
//swap the elements!
temp = charArray[j-1];
charArray[j-1] = charArray[j];
charArray[j] = temp;
}
}
}
}
}
Output:
Please enter number of letters:
5
Enter letter:
f
Enter letter:
d
Enter letter:
w
Enter letter:
a
Enter letter:
b
Before Sorting: [f, d, w, a, b]
After Bubble Sorting: [a, b, d, f, w]
Solution
InsertionSorting.java
import java.util.Arrays;
import java.util.Scanner;
public class InsertionSorting {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner scan = new Scanner(System.in);
System.out.println(\"Please enter number of letters:\");
int n = scan.nextInt();
char letters[] = new char[n];
for(int i=0; i -1) && ( charArray [i] > key ) ) {
charArray [i+1] = charArray [i];
i--;
}
charArray[i+1] = key;
}
}
}
Output:
Please enter number of letters:
5
Enter letter:
f
Enter letter:
s
Enter letter:
w
Enter letter:
a
Enter letter:
b
Before Sorting: [f, s, w, a, b]
After insertion Sorting: [a, b, f, s, w]
BubbleSorting.java
import java.util.Arrays;
import java.util.Scanner;
public class BubbleSorting {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner scan = new Scanner(System.in);
System.out.println(\"Please enter number of letters:\");
int n = scan.nextInt();
char letters[] = new char[n];
for(int i=0; i array [1] swap it.
* 3. Compare array[1] & array[2]
* 4. If array[1] > array[2] swap it.
* ...
* 5. Compare array[n-1] & array[n]
* 6. if [n-1] > array[n] then swap it.
*
* After this step we will have largest elem.
Hubs and switches connect computers to create a LAN.HubA Hub co.pdfinfo54093
Hubs and switches connect computers to create a LAN.
Hub:
A Hub connects multiple computers together in a Local Area Network (LAN). All information
sent to the hub is then sent through each port to every device in the network.
When a hub receives a packet at one of its ports from a PC on the network, it transmits the
packet to all of its ports and, thus, to all of the other PCs on the network. This mean bandwidth
was wasted because all traffic was sent to all ports.
If two or more PCs on the network try to send packets at the same time then a collision occur.
When that happens all of the PCs have to retransmit with different time to resolve the conflict.
The process is prescribed in the Ethernet Carrier Sense Multiple Access with Collision Detection
(CSMA/CD) protocol.
Switch:
A switch is used to connect various network segments. In telecommunications, a switch is a
network device that selects a path or circuit for sending a unit of data to its next destination. A
switch may also include the function of the router, a device or program that can determine the
route and specifically what adjacent network point the data should be sent to. In general, a switch
is a simpler and faster mechanism than a router, which requires knowledge about the network
and how to determine the route. In networks, a device that filters and forwards packets between
LAN segments. Switches operate at the data link layer and sometimes the network layer of the
OSI Reference Model and therefore support any packet protocol. LANs that use switches to join
segments are called switched LAN.
The main difference between Switch and Hub is, A switch is effectively a higher-performance
alternative to a hub. People tend to benefit from a switch over a hub if their home network has
four or more computers, or if they want to use their home network for applications that generate
significant amounts of network traffic, like multiplayer games or heavy music file sharing.
Hubs operate using a broadcast model and switches operate using a virtual circuit model. When
four computers are connected to a hub, for example, and two of those computers communicate
with each other, hubs simply pass through all network traffic to each of the four computers.
Switches, on the other hand, are capable of determining the destination of each individual traffic
element and selectively forwarding data to the one computer that actually needs it. By generating
less network traffic in delivering messages, a switch performs better than a hub on busy
networks.
Solution
Hubs and switches connect computers to create a LAN.
Hub:
A Hub connects multiple computers together in a Local Area Network (LAN). All information
sent to the hub is then sent through each port to every device in the network.
When a hub receives a packet at one of its ports from a PC on the network, it transmits the
packet to all of its ports and, thus, to all of the other PCs on the network. This mean bandwidth
was wasted because all traffic was s.
All of them. Ionic composition will be important .pdfinfo54093
All of them. Ionic composition will be important for solid-liquid phase changes,
molecular composition will be important for liquid-gas phase changes.
Solution
All of them. Ionic composition will be important for solid-liquid phase changes,
molecular composition will be important for liquid-gas phase changes..
Given 1(1!)+2(2!)+3(3!)+...+n(n!) = (n+1)!-1Step1 lets prove it.pdfinfo54093
Given 1(1!)+2(2!)+3(3!)+...+n(n!) = (n+1)!-1
Step:1
lets prove it is true for n=1
1(1!) = 1(1) = 1 and (1+1)!-1 = 2!-1 = 2-1 = 1
L.H.S=R.H.S
Step:2
assume it is true for n=k
1(1!)+2(2!)+3(3!)+...+k(k!) = (k+1)!-1--------->(1)
We need to show that it is true for k+1
1(1!)+2(2!)+3(3!)+...+(k+1)(k+1)! (k+2)!-1 -------->(2)
We add (k+1)(k+1)! to both sides of (1)
1(1!)+2(2!)+3(3!)+...+k(k!)+(k+1)(k+1)! = (k+1)!-1+(k+1)(k+1)! =
= (k+1)!+(k+1)(k+1)!-1 =
= (k+1)![1+(k+1)]-1 =
= (k+1)![1+k+1]-1 =
= (k+1)!(k+2)-1 =
= (k+2)!-1
so from the mathematical induction L.H.S=R.H.S
Solution
Given 1(1!)+2(2!)+3(3!)+...+n(n!) = (n+1)!-1
Step:1
lets prove it is true for n=1
1(1!) = 1(1) = 1 and (1+1)!-1 = 2!-1 = 2-1 = 1
L.H.S=R.H.S
Step:2
assume it is true for n=k
1(1!)+2(2!)+3(3!)+...+k(k!) = (k+1)!-1--------->(1)
We need to show that it is true for k+1
1(1!)+2(2!)+3(3!)+...+(k+1)(k+1)! (k+2)!-1 -------->(2)
We add (k+1)(k+1)! to both sides of (1)
1(1!)+2(2!)+3(3!)+...+k(k!)+(k+1)(k+1)! = (k+1)!-1+(k+1)(k+1)! =
= (k+1)!+(k+1)(k+1)!-1 =
= (k+1)![1+(k+1)]-1 =
= (k+1)![1+k+1]-1 =
= (k+1)!(k+2)-1 =
= (k+2)!-1
so from the mathematical induction L.H.S=R.H.S.
Given that A is a commutative ring.J is an ideal of ALet y be an.pdfinfo54093
Given that A is a commutative ring.
J is an ideal of A
Let y be any element in A/J.
As J is an ideal J is an additive group hence multiplicative identity 1 is not in J and is in A/J
To prove that A/Jis a commutative ring it is enough to prove that A/J is a subring. (As A is
commutative A/R is also commutative)
A/J being commutative and having unit element is closed under multiplication.
Also it is closed under subtraction.
For if y is in A/J, and z in A/J, y-z has to be in A/J as if not then it has to be in J.
which means y-z belongs to J say k then k+z = y has to be in J which is a contradiction.
Hence A/J is closed under subtraction, shares same unity with A and commutative because
subset of a commutative ring A.
A/J is also a commutative ring with unity
Solution
Given that A is a commutative ring.
J is an ideal of A
Let y be any element in A/J.
As J is an ideal J is an additive group hence multiplicative identity 1 is not in J and is in A/J
To prove that A/Jis a commutative ring it is enough to prove that A/J is a subring. (As A is
commutative A/R is also commutative)
A/J being commutative and having unit element is closed under multiplication.
Also it is closed under subtraction.
For if y is in A/J, and z in A/J, y-z has to be in A/J as if not then it has to be in J.
which means y-z belongs to J say k then k+z = y has to be in J which is a contradiction.
Hence A/J is closed under subtraction, shares same unity with A and commutative because
subset of a commutative ring A.
A/J is also a commutative ring with unity.
Diatoms and Coccolithophores have silica shell in their body, so it .pdfinfo54093
Diatoms and Coccolithophores have silica shell in their body, so it can dissolve into warm water.
That’s why they choose to live in cold water. Dinoflagellates do not have any hard shell, so they
can live in warm water. The option 1 is true.
Solution
Diatoms and Coccolithophores have silica shell in their body, so it can dissolve into warm water.
That’s why they choose to live in cold water. Dinoflagellates do not have any hard shell, so they
can live in warm water. The option 1 is true..
Cloud storage is based on highly virtualized infrastructure and is l.pdfinfo54093
Cloud storage is based on highly virtualized infrastructure and is like broader cloud computing in
terms of accessible interfaces, near-instant elasticity and scalability, multi-tenancy, and metered
resources. Cloud storage services can be utilized from an off-premises service like Amazon S3 or
deployed on-premises like ViON Capacity Services.
Cloud storage typically refers to a hosted object storage service, but the term has extented to
include other types of data storage that are now available as a service, like block storage.
Various cloud based services are:
Infrastructure as a Service (IaaS): Organizations make use of the boundless storage potential of
the cloud infrastructure. They can expand and compress the storage space as required.
Software as a Service (SaaS): It allows people to access the functionality of particular software
without the intension of storage.
Platform as a Service (PaaS): The cloud service platform allow the companies to run the
applications without worrying about maintaining hard drives and servers.
Utility Services: If the Companies have to store more data then the data can be stored distantly
and can also create a virtual data center.
Managed Services: These are applications used by the cloud service providers, such as anti-spam
service.
Solution
Cloud storage is based on highly virtualized infrastructure and is like broader cloud computing in
terms of accessible interfaces, near-instant elasticity and scalability, multi-tenancy, and metered
resources. Cloud storage services can be utilized from an off-premises service like Amazon S3 or
deployed on-premises like ViON Capacity Services.
Cloud storage typically refers to a hosted object storage service, but the term has extented to
include other types of data storage that are now available as a service, like block storage.
Various cloud based services are:
Infrastructure as a Service (IaaS): Organizations make use of the boundless storage potential of
the cloud infrastructure. They can expand and compress the storage space as required.
Software as a Service (SaaS): It allows people to access the functionality of particular software
without the intension of storage.
Platform as a Service (PaaS): The cloud service platform allow the companies to run the
applications without worrying about maintaining hard drives and servers.
Utility Services: If the Companies have to store more data then the data can be stored distantly
and can also create a virtual data center.
Managed Services: These are applications used by the cloud service providers, such as anti-spam
service..
B. Packets are delivered to all interfaces identified with the addre.pdfinfo54093
B. Packets are delivered to all interfaces identified with the address. This is also called a one-to-
many address.
Solution
B. Packets are delivered to all interfaces identified with the address. This is also called a one-to-
many address..
A tRNA is activated when their complementary amin.pdfinfo54093
A tRNA is activated when their complementary amino acids are attached to them.
Solution
A tRNA is activated when their complementary amino acids are attached to them..
The Roman Empire A Historical Colossus.pdfkaushalkr1407
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.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
Instructions for Submissions thorugh G- Classroom.pptxJheel Barad
This presentation provides a briefing on how to upload submissions and documents in Google Classroom. It was prepared as part of an orientation for new Sainik School in-service teacher trainees. As a training officer, my goal is to ensure that you are comfortable and proficient with this essential tool for managing assignments and fostering student engagement.
Welcome to TechSoup New Member Orientation and Q&A (May 2024).pdfTechSoup
In this webinar you will learn how your organization can access TechSoup's wide variety of product discount and donation programs. From hardware to software, we'll give you a tour of the tools available to help your nonprofit with productivity, collaboration, financial management, donor tracking, security, and more.
Honest Reviews of Tim Han LMA Course Program.pptxtimhan337
Personal development courses are widely available today, with each one promising life-changing outcomes. Tim Han’s Life Mastery Achievers (LMA) Course has drawn a lot of interest. In addition to offering my frank assessment of Success Insider’s LMA Course, this piece examines the course’s effects via a variety of Tim Han LMA course reviews and Success Insider comments.
Acetabularia Information For Class 9 .docxvaibhavrinwa19
Acetabularia acetabulum is a single-celled green alga that in its vegetative state is morphologically differentiated into a basal rhizoid and an axially elongated stalk, which bears whorls of branching hairs. The single diploid nucleus resides in the rhizoid.
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.