X\'s mothers fourth child was X. the question itself says everything buddy... check
it once
Solution
X\'s mothers fourth child was X. the question itself says everything buddy... check
it once.
Types of Fluoride Additives Community water systems in the United States use
one of three additives for water fluoridation. Decisions on which additive to use are based on
cost of product, product-handling requirements, space availability, and equipment. The three
additives are: * Fluorosilicic acid: a water-based solution used by most water fluoridation
programs in the United States. Fluorosilicic acid is also referred to as hydrofluorosilicate, FSA,
or HFS. * Sodium fluorosilicate: a dry additive, dissolved into a solution before being added to
water. * Sodium fluoride: a dry additive, typically used in small water systems, dissolved into a
solution before being added to water. Back to top Sources of Fluoride Additives Most fluoride
additives used in the United States are produced from phosphorite rock. Phosphorite is used
primarily in the manufacture of phosphate fertilizer. Phosphorite contains calcium phosphate
mixed with limestone (calcium carbonates) minerals and apatite—a mineral with high phosphate
and fluoride content. It is refluxed (heated) with sulfuric acid to produce a phosphoric acid-
gypsum (calcium sulfate-CaSO4) slurry. The heating process releases hydrogen fluoride (HF)
and silicon tetrafluoride (SiF4) gases which are captured by vacuum evaporators. These gases are
then condensed to a water-based solution of 23% FSA with the remainder as water.
Approximately 95% of FSA used for water fluoridation comes from this process. The remaining
5% of FSA is generated during the manufacture of hydrogen fluoride or from the use of
hydrogen fluoride in the manufacturing of solar panels and electronics. Since the early 1950s,
FSA has been the chief additive used for water fluoridation in the United States. The favorable
cost and high purity of FSA make it a popular source. Sodium fluorosilicate and sodium fluoride
are dry additives that come largely from FSA. FSA can be partially neutralized by either table
salt (sodium chloride) or caustic soda to get sodium fluorosilicate. If enough caustic soda is
added to neutralize the fluorosilicate completely, it results in sodium fluoride. Sodium fluoride is
also produced by mixing caustic soda with hydrogen fluoride, although approximately 90% of
the sodium fluoride used in the United States comes from FSA. Back to top Regulatory Scope
on Additives The U.S. Environmental Protection Agency (EPA) has authority over safe
community drinking water, as specified in the Safe Drinking Water Act. On the basis of the
scientific study of potential adverse health effects from contaminated water, the EPA sets a
Maximum Contaminant Level (MCL) concentration allowed for various organisms or
substances. Although EPA does not specifically regulate levels of “direct additives,” which are
chemicals added to water in the course of treatment, it does specify that the addition of chemicals
as part of treatment should not exceed the MCL concentration for regulated substances. This
MCL limit includes the levels natura.
This is blue because ion absorbs yellow radiation and transmits blue radiation
unchanged. As we know that copper is a transition metal and we also know that all transition
metals have coloured compounds due to their partially filled d orbitals. I hope you get it Please
rate
Solution
This is blue because ion absorbs yellow radiation and transmits blue radiation
unchanged. As we know that copper is a transition metal and we also know that all transition
metals have coloured compounds due to their partially filled d orbitals. I hope you get it Please
rate.
The theory, or doctrine, of forms (also called the theory of ideas) is Greek
philosopher Plato\'s (c. 428-347 b.c.) expression of his belief that there are forms that exist
outside the material realm, and therefore are unchanging-they do not come into existence,
change, or pass out of existence. It is these ideas that, according to Plato, are the objects or
essence of knowledge. Further, he posited that the body, the seat of appetite and passion, which
communes with the physical world (rather than the world of ideas or forms), is inferior to the
intellect. He believed the physical aspect of human beings to be irrational while the intellect, or
reason, was deemed to be rational. The origins of Plato\'s theory can be traced to Socrates (c.
470-399 b.c.), who believed that the psyche (inner spirit) has intuitive access to divinely known
principles or truths, which he attempted to formulate through his conversations with others.
Indeed, the Socratic dialogues, written by Plato, reveal that Socrates was striving to define the
exact nature of the traditional Greek moral virtues of piety, temperance, and courage. The theory,
or doctrine, of forms (also called the theory of ideas) is Greek philosopher Plato\'s (c. 428-347
b.c.) expression of his belief that there are forms that exist outside the material realm, and
therefore are unchanging-they do not come into existence, change, or pass out of existence. It is
these ideas that, according to Plato, are the objects or essence of knowledge. Further, he posited
that the body, the seat of appetite and passion, which communes with the physical world (rather
than the world of ideas or forms), is inferior to the intellect. He believed the physical aspect of
human beings to be irrational while the intellect, or reason, was deemed to be rational. The
origins of Plato\'s theory can be traced to Socrates (c. 470-399 b.c.), who believed that the
psyche (inner spirit) has intuitive access to divinely known principles or truths, which he
attempted to formulate through his conversations with others. Indeed, the Socratic dialogues,
written by Plato, reveal that Socrates was striving to define the exact nature of the traditional
Greek moral virtues of piety, temperance, and courage. The theory, or doctrine, of forms (also
called the theory of ideas) is Greek philosopher Plato\'s (c. 428-347 b.c.) expression of his belief
that there are forms that exist outside the material realm, and therefore are unchanging-they do
not come into existence, change, or pass out of existence. It is these ideas that, according to
Plato, are the objects or essence of knowledge. Further, he posited that the body, the seat of
appetite and passion, which communes with the physical world (rather than the world of ideas or
forms), is inferior to the intellect. He believed the physical aspect of human beings to be
irrational while the intellect, or reason, was deemed to be rational. The origins of Plato\'s theory
can be traced to Socrates (c. .
The left ring would undergo nitration more easily because it has an activating group
attached to it (the O has plenty of electrons to delocalize across the entire ring) whereas the right
ring has a carbonyl as it\'s immediate substituent, which is a withdrawing group (it\'s sucking up
electrons in resonance and delivering it to the oxygen.)
Solution
The left ring would undergo nitration more easily because it has an activating group
attached to it (the O has plenty of electrons to delocalize across the entire ring) whereas the right
ring has a carbonyl as it\'s immediate substituent, which is a withdrawing group (it\'s sucking up
electrons in resonance and delivering it to the oxygen.).
sol a. I\'m guessing that they are used to react with potassium iodide. They oxidise
the iodide ion to the tri-iodide complex. so b. Sodium thiosulfate reduces tri-iodide to iodide.
Solution
sol a. I\'m guessing that they are used to react with potassium iodide. They oxidise
the iodide ion to the tri-iodide complex. so b. Sodium thiosulfate reduces tri-iodide to iodide..
Resonance structures demonstrate one of the weaknesses of the Lewis structure.
Molecules represented by a the Lewis structure either have single bonds, double bonds, or triple
bonds. The multiple bonds can sometimes be drawn in more than one place. In reality, the
multiple bond is averaged out over the molecule, so that all of the atoms may have a 1 1/2 bond
or a 1 1/3 bond rather than a single or a double bond.
Solution
Resonance structures demonstrate one of the weaknesses of the Lewis structure.
Molecules represented by a the Lewis structure either have single bonds, double bonds, or triple
bonds. The multiple bonds can sometimes be drawn in more than one place. In reality, the
multiple bond is averaged out over the molecule, so that all of the atoms may have a 1 1/2 bond
or a 1 1/3 bond rather than a single or a double bond..
no. of moles = mass/molecular weight here no mass is given in question
Solution
no. of moles = mass/molecular weight here no mass is given in question.
X\'s mothers fourth child was X. the question itself says everything buddy... check
it once
Solution
X\'s mothers fourth child was X. the question itself says everything buddy... check
it once.
Types of Fluoride Additives Community water systems in the United States use
one of three additives for water fluoridation. Decisions on which additive to use are based on
cost of product, product-handling requirements, space availability, and equipment. The three
additives are: * Fluorosilicic acid: a water-based solution used by most water fluoridation
programs in the United States. Fluorosilicic acid is also referred to as hydrofluorosilicate, FSA,
or HFS. * Sodium fluorosilicate: a dry additive, dissolved into a solution before being added to
water. * Sodium fluoride: a dry additive, typically used in small water systems, dissolved into a
solution before being added to water. Back to top Sources of Fluoride Additives Most fluoride
additives used in the United States are produced from phosphorite rock. Phosphorite is used
primarily in the manufacture of phosphate fertilizer. Phosphorite contains calcium phosphate
mixed with limestone (calcium carbonates) minerals and apatite—a mineral with high phosphate
and fluoride content. It is refluxed (heated) with sulfuric acid to produce a phosphoric acid-
gypsum (calcium sulfate-CaSO4) slurry. The heating process releases hydrogen fluoride (HF)
and silicon tetrafluoride (SiF4) gases which are captured by vacuum evaporators. These gases are
then condensed to a water-based solution of 23% FSA with the remainder as water.
Approximately 95% of FSA used for water fluoridation comes from this process. The remaining
5% of FSA is generated during the manufacture of hydrogen fluoride or from the use of
hydrogen fluoride in the manufacturing of solar panels and electronics. Since the early 1950s,
FSA has been the chief additive used for water fluoridation in the United States. The favorable
cost and high purity of FSA make it a popular source. Sodium fluorosilicate and sodium fluoride
are dry additives that come largely from FSA. FSA can be partially neutralized by either table
salt (sodium chloride) or caustic soda to get sodium fluorosilicate. If enough caustic soda is
added to neutralize the fluorosilicate completely, it results in sodium fluoride. Sodium fluoride is
also produced by mixing caustic soda with hydrogen fluoride, although approximately 90% of
the sodium fluoride used in the United States comes from FSA. Back to top Regulatory Scope
on Additives The U.S. Environmental Protection Agency (EPA) has authority over safe
community drinking water, as specified in the Safe Drinking Water Act. On the basis of the
scientific study of potential adverse health effects from contaminated water, the EPA sets a
Maximum Contaminant Level (MCL) concentration allowed for various organisms or
substances. Although EPA does not specifically regulate levels of “direct additives,” which are
chemicals added to water in the course of treatment, it does specify that the addition of chemicals
as part of treatment should not exceed the MCL concentration for regulated substances. This
MCL limit includes the levels natura.
This is blue because ion absorbs yellow radiation and transmits blue radiation
unchanged. As we know that copper is a transition metal and we also know that all transition
metals have coloured compounds due to their partially filled d orbitals. I hope you get it Please
rate
Solution
This is blue because ion absorbs yellow radiation and transmits blue radiation
unchanged. As we know that copper is a transition metal and we also know that all transition
metals have coloured compounds due to their partially filled d orbitals. I hope you get it Please
rate.
The theory, or doctrine, of forms (also called the theory of ideas) is Greek
philosopher Plato\'s (c. 428-347 b.c.) expression of his belief that there are forms that exist
outside the material realm, and therefore are unchanging-they do not come into existence,
change, or pass out of existence. It is these ideas that, according to Plato, are the objects or
essence of knowledge. Further, he posited that the body, the seat of appetite and passion, which
communes with the physical world (rather than the world of ideas or forms), is inferior to the
intellect. He believed the physical aspect of human beings to be irrational while the intellect, or
reason, was deemed to be rational. The origins of Plato\'s theory can be traced to Socrates (c.
470-399 b.c.), who believed that the psyche (inner spirit) has intuitive access to divinely known
principles or truths, which he attempted to formulate through his conversations with others.
Indeed, the Socratic dialogues, written by Plato, reveal that Socrates was striving to define the
exact nature of the traditional Greek moral virtues of piety, temperance, and courage. The theory,
or doctrine, of forms (also called the theory of ideas) is Greek philosopher Plato\'s (c. 428-347
b.c.) expression of his belief that there are forms that exist outside the material realm, and
therefore are unchanging-they do not come into existence, change, or pass out of existence. It is
these ideas that, according to Plato, are the objects or essence of knowledge. Further, he posited
that the body, the seat of appetite and passion, which communes with the physical world (rather
than the world of ideas or forms), is inferior to the intellect. He believed the physical aspect of
human beings to be irrational while the intellect, or reason, was deemed to be rational. The
origins of Plato\'s theory can be traced to Socrates (c. 470-399 b.c.), who believed that the
psyche (inner spirit) has intuitive access to divinely known principles or truths, which he
attempted to formulate through his conversations with others. Indeed, the Socratic dialogues,
written by Plato, reveal that Socrates was striving to define the exact nature of the traditional
Greek moral virtues of piety, temperance, and courage. The theory, or doctrine, of forms (also
called the theory of ideas) is Greek philosopher Plato\'s (c. 428-347 b.c.) expression of his belief
that there are forms that exist outside the material realm, and therefore are unchanging-they do
not come into existence, change, or pass out of existence. It is these ideas that, according to
Plato, are the objects or essence of knowledge. Further, he posited that the body, the seat of
appetite and passion, which communes with the physical world (rather than the world of ideas or
forms), is inferior to the intellect. He believed the physical aspect of human beings to be
irrational while the intellect, or reason, was deemed to be rational. The origins of Plato\'s theory
can be traced to Socrates (c. .
The left ring would undergo nitration more easily because it has an activating group
attached to it (the O has plenty of electrons to delocalize across the entire ring) whereas the right
ring has a carbonyl as it\'s immediate substituent, which is a withdrawing group (it\'s sucking up
electrons in resonance and delivering it to the oxygen.)
Solution
The left ring would undergo nitration more easily because it has an activating group
attached to it (the O has plenty of electrons to delocalize across the entire ring) whereas the right
ring has a carbonyl as it\'s immediate substituent, which is a withdrawing group (it\'s sucking up
electrons in resonance and delivering it to the oxygen.).
sol a. I\'m guessing that they are used to react with potassium iodide. They oxidise
the iodide ion to the tri-iodide complex. so b. Sodium thiosulfate reduces tri-iodide to iodide.
Solution
sol a. I\'m guessing that they are used to react with potassium iodide. They oxidise
the iodide ion to the tri-iodide complex. so b. Sodium thiosulfate reduces tri-iodide to iodide..
Resonance structures demonstrate one of the weaknesses of the Lewis structure.
Molecules represented by a the Lewis structure either have single bonds, double bonds, or triple
bonds. The multiple bonds can sometimes be drawn in more than one place. In reality, the
multiple bond is averaged out over the molecule, so that all of the atoms may have a 1 1/2 bond
or a 1 1/3 bond rather than a single or a double bond.
Solution
Resonance structures demonstrate one of the weaknesses of the Lewis structure.
Molecules represented by a the Lewis structure either have single bonds, double bonds, or triple
bonds. The multiple bonds can sometimes be drawn in more than one place. In reality, the
multiple bond is averaged out over the molecule, so that all of the atoms may have a 1 1/2 bond
or a 1 1/3 bond rather than a single or a double bond..
no. of moles = mass/molecular weight here no mass is given in question
Solution
no. of moles = mass/molecular weight here no mass is given in question.
Moles of EDTA added initially to the solution = (25.0 mL* 1 L / 1000 mL) *
0.0452 mol/L =0.00113 mol Excess EDTA present in the solution after reacting withNi+2 and
Zn+2 = (12.4 mL * 1 L /1000mL) * 0.0123 mol/L 0.00015 mol Moles of EDTA reacting with
Zn+2 andNi+2 = 0.00113 mol - 0.00015 mol = 0.00098 mol Zn+2 and Ni+2 react with EDTA
in1:1 ratio Moles of Zn+2 and Ni+2 inthe solution = 0.00098 mol EDTA was displaced from
Zn and the liberated EDTA wastitrated with Mg+2 Moles of Mg+2 reacting with EDTA
liberatedfrom Zn+2 = (29.2 mL * 1 L / 1000 mL) * 0.0123mol/L = 0.00035916 mol Each mole
of EDTA is bound to 1 mole ofZn+2 Moles of Zn+2 in the solution = 0.00035916mol Zn+2
Moles of Ni+2 in the solution = 0.00098 mol -0.00035916 mol =0.00062084 mol Ni+2 [Zn+2] =
0.00035916 molZn+2 / 0.050 L = 0.0072 M Zn+2 [Ni+2] = 0.00062084 mol Ni+2 /0.050 L =
0.0124 M Ni+2
Solution
Moles of EDTA added initially to the solution = (25.0 mL* 1 L / 1000 mL) *
0.0452 mol/L =0.00113 mol Excess EDTA present in the solution after reacting withNi+2 and
Zn+2 = (12.4 mL * 1 L /1000mL) * 0.0123 mol/L 0.00015 mol Moles of EDTA reacting with
Zn+2 andNi+2 = 0.00113 mol - 0.00015 mol = 0.00098 mol Zn+2 and Ni+2 react with EDTA
in1:1 ratio Moles of Zn+2 and Ni+2 inthe solution = 0.00098 mol EDTA was displaced from
Zn and the liberated EDTA wastitrated with Mg+2 Moles of Mg+2 reacting with EDTA
liberatedfrom Zn+2 = (29.2 mL * 1 L / 1000 mL) * 0.0123mol/L = 0.00035916 mol Each mole
of EDTA is bound to 1 mole ofZn+2 Moles of Zn+2 in the solution = 0.00035916mol Zn+2
Moles of Ni+2 in the solution = 0.00098 mol -0.00035916 mol =0.00062084 mol Ni+2 [Zn+2] =
0.00035916 molZn+2 / 0.050 L = 0.0072 M Zn+2 [Ni+2] = 0.00062084 mol Ni+2 /0.050 L =
0.0124 M Ni+2.
in saturn weight is 1.064 times that of the earth 1.064*130 =138.32 ponds please
rate
Solution
in saturn weight is 1.064 times that of the earth 1.064*130 =138.32 ponds please
rate.
If I am reading the question right, this would be similar to something like a pond or
a creek receiving fertilizer runoff. This is a more biological standpoint rather than chemical, but
the ideas should be the same. #1. Influx of nutrients causes a bacterial/algal bloom, depleting
water of oxygen. #2. As oxygen levels drop, algae/bacteria begin to die depleting water even
more. #3. Animal live begins to die, causing another increase in nitrogen (ammonia etc) in the
water #4. Anaerobic bacteria as well as plants begin to remove carbon dioxide, phosphates,
nitrogen etc from the water and begin to bring system back into equilbrium. #5. Assuming influx
of fertilizer runoff it not constant, the system will either return to its original state, or a new
equilibrium, depending on how extreme the case was. Another possibility, considering the
\"dynamic surface\", would mean that the extra carbon dioxide would outgas and allow oxygen
to reenter the system. This is the general order, and there might be repetition of steps or one or
two might switch places.
Solution
If I am reading the question right, this would be similar to something like a pond or
a creek receiving fertilizer runoff. This is a more biological standpoint rather than chemical, but
the ideas should be the same. #1. Influx of nutrients causes a bacterial/algal bloom, depleting
water of oxygen. #2. As oxygen levels drop, algae/bacteria begin to die depleting water even
more. #3. Animal live begins to die, causing another increase in nitrogen (ammonia etc) in the
water #4. Anaerobic bacteria as well as plants begin to remove carbon dioxide, phosphates,
nitrogen etc from the water and begin to bring system back into equilbrium. #5. Assuming influx
of fertilizer runoff it not constant, the system will either return to its original state, or a new
equilibrium, depending on how extreme the case was. Another possibility, considering the
\"dynamic surface\", would mean that the extra carbon dioxide would outgas and allow oxygen
to reenter the system. This is the general order, and there might be repetition of steps or one or
two might switch places..
Which of the following are true statements about serial interfaces.pdfannapurnnatextailes
Which of the following are true statements about serial interfaces?
Answer D. The default encapsulation is HDLC, but it can be changed
Explanation:-
Serial interfaces is used to connect to devices outside the network boundary or WAN.
They are multilink point-to-point connections.
The default encapsulation is HDLC(High-Level Data Link Controller), but it can be changed to
Frame Relay, PPP, Synchronous Data Link Control (SDLC), SMDS, Cisco Serial Tunnel
(STUN), Cisco Bisync Serial Tunnel (BSTUN), X.25-based encapsulations.
Solution
Which of the following are true statements about serial interfaces?
Answer D. The default encapsulation is HDLC, but it can be changed
Explanation:-
Serial interfaces is used to connect to devices outside the network boundary or WAN.
They are multilink point-to-point connections.
The default encapsulation is HDLC(High-Level Data Link Controller), but it can be changed to
Frame Relay, PPP, Synchronous Data Link Control (SDLC), SMDS, Cisco Serial Tunnel
(STUN), Cisco Bisync Serial Tunnel (BSTUN), X.25-based encapsulations..
Thermostability
is the quality of a substance to resist irreversible change in its chemical or
physical structure, often by resisting decomposition or polymerisation, at a high relative
temperature.
Thermostable materials may be used industrially as fire retardants. A thermostableplastic, an
uncommon and unconventional term, is likely to refer to a thermosetting plastic that cannot be
reshaped when heated, than to a thermoplastic that can be remelted and recast. Thermostability
also commonly refers to a protein resistant to change in its protein structure due to applied heat.
Thermostable proteins
Most life-forms on Earth live at temperatures of less than 50 °C, commonly from 15 to 50 °C.
Above this, thermal energy may cause the unfolding of the protein structure, where the activity
of the protein is abolished and a condition understandably deleterious to continuing life-
functions. The denaturing of proteins in albumen from a clear, nearly colourless liquid to an
opaque white, insoluble gel is a common example of this.
Certain thermophilic life-forms exist which can withstand temperatures above this, and have
corresponding adaptations to preserve protein function at these temperatures. . These can include
altered bulk properties of the cell to stabilize all proteins, and specific changes to individual
proteins. Examining homologous proteins present in these thermophiles and other organisms
reveal only slight differences in the protein structure. One notable difference is the presence of
extra hydrogen bonds in the thermophile\'s proteins—meaning that the protein structure is more
resistant to unfolding. The presence of certain types of salt has been observed to alter
thermostability in the proteins, indicating that salt bridges likely also play a role in
thermostability Other factors of protein thermostability are compactness of protein structure,.
oligomerization and strength interaction between subunits.
Thermostable enzymes such as Taq polymerase and Pfu DNA polymerase are used in
polymerase chain reactions where temperatures of 94 °C or over are used to melt apart DNA
strands.
Approaches to improve thermostability of proteins
Protein engineering can be used to enhance the thermostability of proteins. A number of site-
directed and random mutagenesis techniques, in addition to directed evolution .have been used to
increase the thermostability of target proteins. Comparative methods have been used to increase
the stability of mesophilic proteins based on comparison to thermophilic homologs. Additionally,
analysis of the protein unfolding by molecular dynamics can be used to understand the process of
unfolding and then design stabilizing mutations. Rational protein engineering for increasing
protein thermostability includes mutations which truncate loops, increase salt bridges. or
hydrogen bonds, introduced disulfide bonds. In addition, ligand binding can increase the stability
of the protein, particularly when purified.
Bacillus lichenifor.
This very short document repeats the word "victimized" and also includes the word "solution" but provides no other context or details to understand its meaning or purpose. It consists of only three words across three lines without any other information.
True,Design activities for high risk system interfaces might come up.pdfannapurnnatextailes
True,Design activities for high risk system interfaces might come up in early inception phase
iterations.
Solution
True,Design activities for high risk system interfaces might come up in early inception phase
iterations..
WAN is a wide area network in which two or more computer or other de.pdfannapurnnatextailes
WAN is a wide area network in which two or more computer or other devices connected to share
data and resources. There are two types of medias are used for creating a comouter network i.e.
Wired or Guided Media and Wirless or Unguided Media.
For the connectivity of two points over a large distance we can choose any of the media on the
basis of following charactersitics.
1. Wired Media- There are three types of wired medias are used for connectivity ie. Twisted, Co-
axial and Fiber Optics
for the long distance of connectivity we choose Fiber Optics due to it provide very high speed of
data transfer. but the cost of these types of media is very expensive.
If we choose Twisted Pair it has a limitation of transfer rate is maximum of 100mbps which is
feasible for LAN not for the WAN.
2. Wireless Media- Wirelesss connectity can be established with the help of Wi-Fi Router,
Satelite Communication, Radar etc. No doubt it provide fast transfer of data over the network but
mail problem of these types of devices are first it is very expensive, second issue is with the
range offered by the Wireless Access point is at limited distance so a large number of Wireless
access points are required to establish a long distance based wan.
Also backbone is required to be establish with wired media, which again restricted to the speed
of the network.
Solution
WAN is a wide area network in which two or more computer or other devices connected to share
data and resources. There are two types of medias are used for creating a comouter network i.e.
Wired or Guided Media and Wirless or Unguided Media.
For the connectivity of two points over a large distance we can choose any of the media on the
basis of following charactersitics.
1. Wired Media- There are three types of wired medias are used for connectivity ie. Twisted, Co-
axial and Fiber Optics
for the long distance of connectivity we choose Fiber Optics due to it provide very high speed of
data transfer. but the cost of these types of media is very expensive.
If we choose Twisted Pair it has a limitation of transfer rate is maximum of 100mbps which is
feasible for LAN not for the WAN.
2. Wireless Media- Wirelesss connectity can be established with the help of Wi-Fi Router,
Satelite Communication, Radar etc. No doubt it provide fast transfer of data over the network but
mail problem of these types of devices are first it is very expensive, second issue is with the
range offered by the Wireless Access point is at limited distance so a large number of Wireless
access points are required to establish a long distance based wan.
Also backbone is required to be establish with wired media, which again restricted to the speed
of the network..
The most important characteristics that comprise the software qualit.pdfannapurnnatextailes
The most important characteristics that comprise the software quality are:
• Functionality
• Reliability
• Usability
• Efficiency
• Maintainability
• Portability
Functionality:
Functionality is the essential characteristic of any product or the service that refers to the
specification of the functions of the software and to the correctness of the functions. As the
system does not typically function in isolation, it helps the system to interact with the other
components. This relates to the unauthorized access to the software functions.
Reliability:
This characteristic concerns the frequency of failure of the software and has the capacity of
software to withstand and recover from components or environment and failure. It is also capable
of bringing back the failed system to the full operation, including data and network connections.
Usability:
It is used to determine the simplicity of the systems function, relate the user models to computer
interaction methods and has the ability of software to be easily operated by the user.
Efficiency:
This characteristic is concerned with the system resources used when providing the required
functionality. The amount of disk space, memory, network etc provides a good indication of this
characteristic.
Maintainability:
This characteristic has the ability to identify the root cause of a failure within the software, the
amount of effort to change a system and the effort needed to test the system changes.
Portability:
The ability of the system to change to new specifications or operating environments.
To achieve the software of high quality it is necessary to understand the ways how the software
system fails. The challenges are:
Solution
The most important characteristics that comprise the software quality are:
• Functionality
• Reliability
• Usability
• Efficiency
• Maintainability
• Portability
Functionality:
Functionality is the essential characteristic of any product or the service that refers to the
specification of the functions of the software and to the correctness of the functions. As the
system does not typically function in isolation, it helps the system to interact with the other
components. This relates to the unauthorized access to the software functions.
Reliability:
This characteristic concerns the frequency of failure of the software and has the capacity of
software to withstand and recover from components or environment and failure. It is also capable
of bringing back the failed system to the full operation, including data and network connections.
Usability:
It is used to determine the simplicity of the systems function, relate the user models to computer
interaction methods and has the ability of software to be easily operated by the user.
Efficiency:
This characteristic is concerned with the system resources used when providing the required
functionality. The amount of disk space, memory, network etc provides a good indication of this
characteristic.
Maintainability:
This characteristic has .
The electronic configuration of H is 1s1 It has one valence electr.pdfannapurnnatextailes
The electronic configuration of H is 1s1
It has one valence electron like the ist group and
It gets octet configuration [He] when it accepts one electron like the Group 7 elements
(Halogens)
Hence Hydrogen is like group 1 and group 7.
Solution
The electronic configuration of H is 1s1
It has one valence electron like the ist group and
It gets octet configuration [He] when it accepts one electron like the Group 7 elements
(Halogens)
Hence Hydrogen is like group 1 and group 7..
Regression analysis is a mathematical measure of the average relatio.pdfannapurnnatextailes
Regression analysis is a mathematical measure of the average relation between two or more
variables in terms of the original units of the data.
Solution
Regression analysis is a mathematical measure of the average relation between two or more
variables in terms of the original units of the data..
public class FullListException extends Exception { Default .pdfannapurnnatextailes
public class FullListException extends Exception {
/**
* Default constructor
*/
public FullListException() {
super();
}
/**
* param message
*/
public FullListException(String message) {
super(message);
}
}
public class NonPositivePriceException extends Exception{
/**
* Default constructor
*/
public NonPositivePriceException() {
super();
}
/**
* param message
*/
public NonPositivePriceException(String message) {
super(message);
}
}
public class MenuItem {
//Attributes
private String name;
private String description;
private double price;
/**
* Default constructor
*/
public MenuItem() {
this.name = \"\";
this.description = \"\";
this.price = 0.0;
}
/**
* Parameterized Constructor
* param name
* param description
* param price
*/
public MenuItem(String name, String description, double price) {
this.name = name;
this.description = description;
this.price = price;
}
/**
* return the name
*/
public String getName() {
return name;
}
/**
* param name the name to set
*/
public void setName(String name) {
this.name = name;
}
/**
* return the description
*/
public String getDescription() {
return description;
}
/**
* param description the description to set
*/
public void setDescription(String description) {
this.description = description;
}
/**
* return the price
*/
public double getPrice() {
return price;
}
/**
* param price the price to set
* throws NonPositivePriceException
*/
public void setPrice(double price) throws NonPositivePriceException {
if(price <= 0)
throw new NonPositivePriceException(\"Price cannot be set to a non positive value\");
this.price = price;
}
/**
* Checks whether this MenuItem has the same attribute values as obj
*/
Override
public boolean equals(Object obj) {
MenuItem item = (MenuItem)obj;
if((this.name.equalsIgnoreCase(item.name)) &&
(this.description.equalsIgnoreCase(item.description)) &&
(this.price == item.price))
return true;
else
return false;
}
Override
public String toString() {
System.out.printf(\"\ %2s %-25s %-75s %-10s\", \"#\", \"Item Name\", \"Item Description\",
\"Item Price\");
System.out.printf(\"\ %50s\", new String(new char[115]).replace(\'\\0\', \'-\'));
System.out.printf(\"\ %2s %-25s %-75s %10.2f\", \"1\", this.name, this.description, this.price);
return \"\";
}
}
public class Menu{
static final int MAX_ITEMS = 50;
//Attributes
private MenuItem[] list;
/**
* Default Constructor
* Construct an instance of the Menu class with no MenuItem objects in it
*
* Postcondition: This Menu has been initialized to an empty list of MenuItems.
*/
public Menu() {
list = new MenuItem[MAX_ITEMS];
}
/**
* Generates a copy of this Menu.
* return The return value is a copy of this Menu.
* Subsequent changes to the copy will not affect the original, nor vice versa.
* Note that the return value is typecast to an Menu before it can be used.
*/
Override
public Object clone() {
Menu clone = new Menu();
if(this.size() > 0) {
for(int i = 0 ; i < MAX_ITEMS ; i++) {
if(this.list[i] != null)
clone.list[i] = this.list[i];
}
}
return cl.
program for JRiddle.javapackage riddle;import javax.swing.; i.pdfannapurnnatextailes
program for JRiddle.java
package riddle;
import javax.swing.*;
import java.awt.event.*;
import java.awt.*;
public class Riddle implements ActionListener {
private final String LABEL_TEXT = \"What is your longterm goal?\";
JFrame frame;
JPanel contentPane;
JLabel label, label1;
JButton button;
JButton button1;
private static int i;
public Riddle() {
/* Create and set up the frame */
frame = new JFrame(LABEL_TEXT);
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
/* Create a content pane with a GridLayout and empty borders */
contentPane = new JPanel();
contentPane.setLayout(new GridLayout(0, 2, 10, 5));
/* Create and add label that is centered and has empty borders */
label = new JLabel(\"Why did the chicken cross the road?\");
label.setAlignmentX(JButton.LEFT_ALIGNMENT);
label.setBorder(BorderFactory.createEmptyBorder(20, 50, 20, 50));
contentPane.add(label);
label1 = new JLabel(\" \");
label1.setAlignmentX(JButton.LEFT_ALIGNMENT);
label1.setBorder(BorderFactory.createEmptyBorder(20, 50, 20, 50));
contentPane.add(label1);
/* Create and add button that is centered */
button = new JButton(\"Answer\");
button.setAlignmentX(JButton.RIGHT_ALIGNMENT);
button.setActionCommand(\"Show Answer\");
button.addActionListener(this);
contentPane.add(button);
/* Add content pane to frame */
frame.setContentPane(contentPane);
/* Size and then display the frame */
frame.pack();
frame.setVisible(true);
}
/** Handle button click action event
* pre:
* post: clicked button shows answer
*/
public void actionPerformed(ActionEvent event) {
String eventName = event.getActionCommand();
if (eventName.equals(\"Show Answer\")) {
label1.setText(\"To become architect \");
label1.setFont(new Font(\"Serif\",Font.PLAIN,30));
button.setText(\"Answer\");
button.setActionCommand(\"Answer\");
}
}
/**
* Create and show the GUI
*/
private static void runGUI() {
JFrame.setDefaultLookAndFeelDecorated(true);
Riddle greeting = new Riddle();
}
public static void main(String[] args) {
javax.swing.SwingUtilities.invokeLater(new Runnable() {
public void run() {
runGUI();
}
});
}
}
output:
what is your longterm goal? architectanswer
Solution
program for JRiddle.java
package riddle;
import javax.swing.*;
import java.awt.event.*;
import java.awt.*;
public class Riddle implements ActionListener {
private final String LABEL_TEXT = \"What is your longterm goal?\";
JFrame frame;
JPanel contentPane;
JLabel label, label1;
JButton button;
JButton button1;
private static int i;
public Riddle() {
/* Create and set up the frame */
frame = new JFrame(LABEL_TEXT);
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
/* Create a content pane with a GridLayout and empty borders */
contentPane = new JPanel();
contentPane.setLayout(new GridLayout(0, 2, 10, 5));
/* Create and add label that is centered and has empty borders */
label = new JLabel(\"Why did the chicken cross the road?\");
label.setAlignmentX(JButton.LEFT_ALIGNMENT);
label.setBorder(BorderFactory.createEmptyBorder(20, 50, 20, 50));
contentPa.
Litumus is a weak acid which can be simply written as HLit. The un-i.pdfannapurnnatextailes
Litumus is a weak acid which can be simply written as HLit. The un-ionised litmus is red,
whereas the ion is blue.
When the solution is basic, hydroxide ions are added. So more of Litumus ions are obtained.
Litumus ions absorb orange color. Hence we observe a blue color.
Similarly, when the solution is acidic, the equilibrium shifts to unionized litumus which absorbs
blue green. Hence we observe a red color.
Hope this helps
Solution
Litumus is a weak acid which can be simply written as HLit. The un-ionised litmus is red,
whereas the ion is blue.
When the solution is basic, hydroxide ions are added. So more of Litumus ions are obtained.
Litumus ions absorb orange color. Hence we observe a blue color.
Similarly, when the solution is acidic, the equilibrium shifts to unionized litumus which absorbs
blue green. Hence we observe a red color.
Hope this helps.
Let x = amount ($) invested in Fund B then 4x = amount ($) inves.pdfannapurnnatextailes
Let x = amount ($) invested in Fund B
then
4x = amount ($) invested in Fund A
.
.03x + .02(4x) = 1210
.11x=1210
x=$11000
that means $11000 amount ($) is invested in Fund B
Solution
Let x = amount ($) invested in Fund B
then
4x = amount ($) invested in Fund A
.
.03x + .02(4x) = 1210
.11x=1210
x=$11000
that means $11000 amount ($) is invested in Fund B.
can\'t you use one cell to fine the Ecell and then plug it in other one to find the
concentration
Solution
can\'t you use one cell to fine the Ecell and then plug it in other one to find the
concentration.
c. CH3CH2CCH note: alkyne has a CC triple bond, thus it can only bonds to one
substituent.
Solution
c. CH3CH2CCH note: alkyne has a CC triple bond, thus it can only bonds to one
substituent..
Information technology and itsimpact n underrgraduate technology edu.pdfannapurnnatextailes
Information technology and itsimpact n underrgraduate technology education in science,
mathematics, engineering and technology :
Solution
Information technology and itsimpact n underrgraduate technology education in science,
mathematics, engineering and technology :.
Moles of EDTA added initially to the solution = (25.0 mL* 1 L / 1000 mL) *
0.0452 mol/L =0.00113 mol Excess EDTA present in the solution after reacting withNi+2 and
Zn+2 = (12.4 mL * 1 L /1000mL) * 0.0123 mol/L 0.00015 mol Moles of EDTA reacting with
Zn+2 andNi+2 = 0.00113 mol - 0.00015 mol = 0.00098 mol Zn+2 and Ni+2 react with EDTA
in1:1 ratio Moles of Zn+2 and Ni+2 inthe solution = 0.00098 mol EDTA was displaced from
Zn and the liberated EDTA wastitrated with Mg+2 Moles of Mg+2 reacting with EDTA
liberatedfrom Zn+2 = (29.2 mL * 1 L / 1000 mL) * 0.0123mol/L = 0.00035916 mol Each mole
of EDTA is bound to 1 mole ofZn+2 Moles of Zn+2 in the solution = 0.00035916mol Zn+2
Moles of Ni+2 in the solution = 0.00098 mol -0.00035916 mol =0.00062084 mol Ni+2 [Zn+2] =
0.00035916 molZn+2 / 0.050 L = 0.0072 M Zn+2 [Ni+2] = 0.00062084 mol Ni+2 /0.050 L =
0.0124 M Ni+2
Solution
Moles of EDTA added initially to the solution = (25.0 mL* 1 L / 1000 mL) *
0.0452 mol/L =0.00113 mol Excess EDTA present in the solution after reacting withNi+2 and
Zn+2 = (12.4 mL * 1 L /1000mL) * 0.0123 mol/L 0.00015 mol Moles of EDTA reacting with
Zn+2 andNi+2 = 0.00113 mol - 0.00015 mol = 0.00098 mol Zn+2 and Ni+2 react with EDTA
in1:1 ratio Moles of Zn+2 and Ni+2 inthe solution = 0.00098 mol EDTA was displaced from
Zn and the liberated EDTA wastitrated with Mg+2 Moles of Mg+2 reacting with EDTA
liberatedfrom Zn+2 = (29.2 mL * 1 L / 1000 mL) * 0.0123mol/L = 0.00035916 mol Each mole
of EDTA is bound to 1 mole ofZn+2 Moles of Zn+2 in the solution = 0.00035916mol Zn+2
Moles of Ni+2 in the solution = 0.00098 mol -0.00035916 mol =0.00062084 mol Ni+2 [Zn+2] =
0.00035916 molZn+2 / 0.050 L = 0.0072 M Zn+2 [Ni+2] = 0.00062084 mol Ni+2 /0.050 L =
0.0124 M Ni+2.
in saturn weight is 1.064 times that of the earth 1.064*130 =138.32 ponds please
rate
Solution
in saturn weight is 1.064 times that of the earth 1.064*130 =138.32 ponds please
rate.
If I am reading the question right, this would be similar to something like a pond or
a creek receiving fertilizer runoff. This is a more biological standpoint rather than chemical, but
the ideas should be the same. #1. Influx of nutrients causes a bacterial/algal bloom, depleting
water of oxygen. #2. As oxygen levels drop, algae/bacteria begin to die depleting water even
more. #3. Animal live begins to die, causing another increase in nitrogen (ammonia etc) in the
water #4. Anaerobic bacteria as well as plants begin to remove carbon dioxide, phosphates,
nitrogen etc from the water and begin to bring system back into equilbrium. #5. Assuming influx
of fertilizer runoff it not constant, the system will either return to its original state, or a new
equilibrium, depending on how extreme the case was. Another possibility, considering the
\"dynamic surface\", would mean that the extra carbon dioxide would outgas and allow oxygen
to reenter the system. This is the general order, and there might be repetition of steps or one or
two might switch places.
Solution
If I am reading the question right, this would be similar to something like a pond or
a creek receiving fertilizer runoff. This is a more biological standpoint rather than chemical, but
the ideas should be the same. #1. Influx of nutrients causes a bacterial/algal bloom, depleting
water of oxygen. #2. As oxygen levels drop, algae/bacteria begin to die depleting water even
more. #3. Animal live begins to die, causing another increase in nitrogen (ammonia etc) in the
water #4. Anaerobic bacteria as well as plants begin to remove carbon dioxide, phosphates,
nitrogen etc from the water and begin to bring system back into equilbrium. #5. Assuming influx
of fertilizer runoff it not constant, the system will either return to its original state, or a new
equilibrium, depending on how extreme the case was. Another possibility, considering the
\"dynamic surface\", would mean that the extra carbon dioxide would outgas and allow oxygen
to reenter the system. This is the general order, and there might be repetition of steps or one or
two might switch places..
Which of the following are true statements about serial interfaces.pdfannapurnnatextailes
Which of the following are true statements about serial interfaces?
Answer D. The default encapsulation is HDLC, but it can be changed
Explanation:-
Serial interfaces is used to connect to devices outside the network boundary or WAN.
They are multilink point-to-point connections.
The default encapsulation is HDLC(High-Level Data Link Controller), but it can be changed to
Frame Relay, PPP, Synchronous Data Link Control (SDLC), SMDS, Cisco Serial Tunnel
(STUN), Cisco Bisync Serial Tunnel (BSTUN), X.25-based encapsulations.
Solution
Which of the following are true statements about serial interfaces?
Answer D. The default encapsulation is HDLC, but it can be changed
Explanation:-
Serial interfaces is used to connect to devices outside the network boundary or WAN.
They are multilink point-to-point connections.
The default encapsulation is HDLC(High-Level Data Link Controller), but it can be changed to
Frame Relay, PPP, Synchronous Data Link Control (SDLC), SMDS, Cisco Serial Tunnel
(STUN), Cisco Bisync Serial Tunnel (BSTUN), X.25-based encapsulations..
Thermostability
is the quality of a substance to resist irreversible change in its chemical or
physical structure, often by resisting decomposition or polymerisation, at a high relative
temperature.
Thermostable materials may be used industrially as fire retardants. A thermostableplastic, an
uncommon and unconventional term, is likely to refer to a thermosetting plastic that cannot be
reshaped when heated, than to a thermoplastic that can be remelted and recast. Thermostability
also commonly refers to a protein resistant to change in its protein structure due to applied heat.
Thermostable proteins
Most life-forms on Earth live at temperatures of less than 50 °C, commonly from 15 to 50 °C.
Above this, thermal energy may cause the unfolding of the protein structure, where the activity
of the protein is abolished and a condition understandably deleterious to continuing life-
functions. The denaturing of proteins in albumen from a clear, nearly colourless liquid to an
opaque white, insoluble gel is a common example of this.
Certain thermophilic life-forms exist which can withstand temperatures above this, and have
corresponding adaptations to preserve protein function at these temperatures. . These can include
altered bulk properties of the cell to stabilize all proteins, and specific changes to individual
proteins. Examining homologous proteins present in these thermophiles and other organisms
reveal only slight differences in the protein structure. One notable difference is the presence of
extra hydrogen bonds in the thermophile\'s proteins—meaning that the protein structure is more
resistant to unfolding. The presence of certain types of salt has been observed to alter
thermostability in the proteins, indicating that salt bridges likely also play a role in
thermostability Other factors of protein thermostability are compactness of protein structure,.
oligomerization and strength interaction between subunits.
Thermostable enzymes such as Taq polymerase and Pfu DNA polymerase are used in
polymerase chain reactions where temperatures of 94 °C or over are used to melt apart DNA
strands.
Approaches to improve thermostability of proteins
Protein engineering can be used to enhance the thermostability of proteins. A number of site-
directed and random mutagenesis techniques, in addition to directed evolution .have been used to
increase the thermostability of target proteins. Comparative methods have been used to increase
the stability of mesophilic proteins based on comparison to thermophilic homologs. Additionally,
analysis of the protein unfolding by molecular dynamics can be used to understand the process of
unfolding and then design stabilizing mutations. Rational protein engineering for increasing
protein thermostability includes mutations which truncate loops, increase salt bridges. or
hydrogen bonds, introduced disulfide bonds. In addition, ligand binding can increase the stability
of the protein, particularly when purified.
Bacillus lichenifor.
This very short document repeats the word "victimized" and also includes the word "solution" but provides no other context or details to understand its meaning or purpose. It consists of only three words across three lines without any other information.
True,Design activities for high risk system interfaces might come up.pdfannapurnnatextailes
True,Design activities for high risk system interfaces might come up in early inception phase
iterations.
Solution
True,Design activities for high risk system interfaces might come up in early inception phase
iterations..
WAN is a wide area network in which two or more computer or other de.pdfannapurnnatextailes
WAN is a wide area network in which two or more computer or other devices connected to share
data and resources. There are two types of medias are used for creating a comouter network i.e.
Wired or Guided Media and Wirless or Unguided Media.
For the connectivity of two points over a large distance we can choose any of the media on the
basis of following charactersitics.
1. Wired Media- There are three types of wired medias are used for connectivity ie. Twisted, Co-
axial and Fiber Optics
for the long distance of connectivity we choose Fiber Optics due to it provide very high speed of
data transfer. but the cost of these types of media is very expensive.
If we choose Twisted Pair it has a limitation of transfer rate is maximum of 100mbps which is
feasible for LAN not for the WAN.
2. Wireless Media- Wirelesss connectity can be established with the help of Wi-Fi Router,
Satelite Communication, Radar etc. No doubt it provide fast transfer of data over the network but
mail problem of these types of devices are first it is very expensive, second issue is with the
range offered by the Wireless Access point is at limited distance so a large number of Wireless
access points are required to establish a long distance based wan.
Also backbone is required to be establish with wired media, which again restricted to the speed
of the network.
Solution
WAN is a wide area network in which two or more computer or other devices connected to share
data and resources. There are two types of medias are used for creating a comouter network i.e.
Wired or Guided Media and Wirless or Unguided Media.
For the connectivity of two points over a large distance we can choose any of the media on the
basis of following charactersitics.
1. Wired Media- There are three types of wired medias are used for connectivity ie. Twisted, Co-
axial and Fiber Optics
for the long distance of connectivity we choose Fiber Optics due to it provide very high speed of
data transfer. but the cost of these types of media is very expensive.
If we choose Twisted Pair it has a limitation of transfer rate is maximum of 100mbps which is
feasible for LAN not for the WAN.
2. Wireless Media- Wirelesss connectity can be established with the help of Wi-Fi Router,
Satelite Communication, Radar etc. No doubt it provide fast transfer of data over the network but
mail problem of these types of devices are first it is very expensive, second issue is with the
range offered by the Wireless Access point is at limited distance so a large number of Wireless
access points are required to establish a long distance based wan.
Also backbone is required to be establish with wired media, which again restricted to the speed
of the network..
The most important characteristics that comprise the software qualit.pdfannapurnnatextailes
The most important characteristics that comprise the software quality are:
• Functionality
• Reliability
• Usability
• Efficiency
• Maintainability
• Portability
Functionality:
Functionality is the essential characteristic of any product or the service that refers to the
specification of the functions of the software and to the correctness of the functions. As the
system does not typically function in isolation, it helps the system to interact with the other
components. This relates to the unauthorized access to the software functions.
Reliability:
This characteristic concerns the frequency of failure of the software and has the capacity of
software to withstand and recover from components or environment and failure. It is also capable
of bringing back the failed system to the full operation, including data and network connections.
Usability:
It is used to determine the simplicity of the systems function, relate the user models to computer
interaction methods and has the ability of software to be easily operated by the user.
Efficiency:
This characteristic is concerned with the system resources used when providing the required
functionality. The amount of disk space, memory, network etc provides a good indication of this
characteristic.
Maintainability:
This characteristic has the ability to identify the root cause of a failure within the software, the
amount of effort to change a system and the effort needed to test the system changes.
Portability:
The ability of the system to change to new specifications or operating environments.
To achieve the software of high quality it is necessary to understand the ways how the software
system fails. The challenges are:
Solution
The most important characteristics that comprise the software quality are:
• Functionality
• Reliability
• Usability
• Efficiency
• Maintainability
• Portability
Functionality:
Functionality is the essential characteristic of any product or the service that refers to the
specification of the functions of the software and to the correctness of the functions. As the
system does not typically function in isolation, it helps the system to interact with the other
components. This relates to the unauthorized access to the software functions.
Reliability:
This characteristic concerns the frequency of failure of the software and has the capacity of
software to withstand and recover from components or environment and failure. It is also capable
of bringing back the failed system to the full operation, including data and network connections.
Usability:
It is used to determine the simplicity of the systems function, relate the user models to computer
interaction methods and has the ability of software to be easily operated by the user.
Efficiency:
This characteristic is concerned with the system resources used when providing the required
functionality. The amount of disk space, memory, network etc provides a good indication of this
characteristic.
Maintainability:
This characteristic has .
The electronic configuration of H is 1s1 It has one valence electr.pdfannapurnnatextailes
The electronic configuration of H is 1s1
It has one valence electron like the ist group and
It gets octet configuration [He] when it accepts one electron like the Group 7 elements
(Halogens)
Hence Hydrogen is like group 1 and group 7.
Solution
The electronic configuration of H is 1s1
It has one valence electron like the ist group and
It gets octet configuration [He] when it accepts one electron like the Group 7 elements
(Halogens)
Hence Hydrogen is like group 1 and group 7..
Regression analysis is a mathematical measure of the average relatio.pdfannapurnnatextailes
Regression analysis is a mathematical measure of the average relation between two or more
variables in terms of the original units of the data.
Solution
Regression analysis is a mathematical measure of the average relation between two or more
variables in terms of the original units of the data..
public class FullListException extends Exception { Default .pdfannapurnnatextailes
public class FullListException extends Exception {
/**
* Default constructor
*/
public FullListException() {
super();
}
/**
* param message
*/
public FullListException(String message) {
super(message);
}
}
public class NonPositivePriceException extends Exception{
/**
* Default constructor
*/
public NonPositivePriceException() {
super();
}
/**
* param message
*/
public NonPositivePriceException(String message) {
super(message);
}
}
public class MenuItem {
//Attributes
private String name;
private String description;
private double price;
/**
* Default constructor
*/
public MenuItem() {
this.name = \"\";
this.description = \"\";
this.price = 0.0;
}
/**
* Parameterized Constructor
* param name
* param description
* param price
*/
public MenuItem(String name, String description, double price) {
this.name = name;
this.description = description;
this.price = price;
}
/**
* return the name
*/
public String getName() {
return name;
}
/**
* param name the name to set
*/
public void setName(String name) {
this.name = name;
}
/**
* return the description
*/
public String getDescription() {
return description;
}
/**
* param description the description to set
*/
public void setDescription(String description) {
this.description = description;
}
/**
* return the price
*/
public double getPrice() {
return price;
}
/**
* param price the price to set
* throws NonPositivePriceException
*/
public void setPrice(double price) throws NonPositivePriceException {
if(price <= 0)
throw new NonPositivePriceException(\"Price cannot be set to a non positive value\");
this.price = price;
}
/**
* Checks whether this MenuItem has the same attribute values as obj
*/
Override
public boolean equals(Object obj) {
MenuItem item = (MenuItem)obj;
if((this.name.equalsIgnoreCase(item.name)) &&
(this.description.equalsIgnoreCase(item.description)) &&
(this.price == item.price))
return true;
else
return false;
}
Override
public String toString() {
System.out.printf(\"\ %2s %-25s %-75s %-10s\", \"#\", \"Item Name\", \"Item Description\",
\"Item Price\");
System.out.printf(\"\ %50s\", new String(new char[115]).replace(\'\\0\', \'-\'));
System.out.printf(\"\ %2s %-25s %-75s %10.2f\", \"1\", this.name, this.description, this.price);
return \"\";
}
}
public class Menu{
static final int MAX_ITEMS = 50;
//Attributes
private MenuItem[] list;
/**
* Default Constructor
* Construct an instance of the Menu class with no MenuItem objects in it
*
* Postcondition: This Menu has been initialized to an empty list of MenuItems.
*/
public Menu() {
list = new MenuItem[MAX_ITEMS];
}
/**
* Generates a copy of this Menu.
* return The return value is a copy of this Menu.
* Subsequent changes to the copy will not affect the original, nor vice versa.
* Note that the return value is typecast to an Menu before it can be used.
*/
Override
public Object clone() {
Menu clone = new Menu();
if(this.size() > 0) {
for(int i = 0 ; i < MAX_ITEMS ; i++) {
if(this.list[i] != null)
clone.list[i] = this.list[i];
}
}
return cl.
program for JRiddle.javapackage riddle;import javax.swing.; i.pdfannapurnnatextailes
program for JRiddle.java
package riddle;
import javax.swing.*;
import java.awt.event.*;
import java.awt.*;
public class Riddle implements ActionListener {
private final String LABEL_TEXT = \"What is your longterm goal?\";
JFrame frame;
JPanel contentPane;
JLabel label, label1;
JButton button;
JButton button1;
private static int i;
public Riddle() {
/* Create and set up the frame */
frame = new JFrame(LABEL_TEXT);
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
/* Create a content pane with a GridLayout and empty borders */
contentPane = new JPanel();
contentPane.setLayout(new GridLayout(0, 2, 10, 5));
/* Create and add label that is centered and has empty borders */
label = new JLabel(\"Why did the chicken cross the road?\");
label.setAlignmentX(JButton.LEFT_ALIGNMENT);
label.setBorder(BorderFactory.createEmptyBorder(20, 50, 20, 50));
contentPane.add(label);
label1 = new JLabel(\" \");
label1.setAlignmentX(JButton.LEFT_ALIGNMENT);
label1.setBorder(BorderFactory.createEmptyBorder(20, 50, 20, 50));
contentPane.add(label1);
/* Create and add button that is centered */
button = new JButton(\"Answer\");
button.setAlignmentX(JButton.RIGHT_ALIGNMENT);
button.setActionCommand(\"Show Answer\");
button.addActionListener(this);
contentPane.add(button);
/* Add content pane to frame */
frame.setContentPane(contentPane);
/* Size and then display the frame */
frame.pack();
frame.setVisible(true);
}
/** Handle button click action event
* pre:
* post: clicked button shows answer
*/
public void actionPerformed(ActionEvent event) {
String eventName = event.getActionCommand();
if (eventName.equals(\"Show Answer\")) {
label1.setText(\"To become architect \");
label1.setFont(new Font(\"Serif\",Font.PLAIN,30));
button.setText(\"Answer\");
button.setActionCommand(\"Answer\");
}
}
/**
* Create and show the GUI
*/
private static void runGUI() {
JFrame.setDefaultLookAndFeelDecorated(true);
Riddle greeting = new Riddle();
}
public static void main(String[] args) {
javax.swing.SwingUtilities.invokeLater(new Runnable() {
public void run() {
runGUI();
}
});
}
}
output:
what is your longterm goal? architectanswer
Solution
program for JRiddle.java
package riddle;
import javax.swing.*;
import java.awt.event.*;
import java.awt.*;
public class Riddle implements ActionListener {
private final String LABEL_TEXT = \"What is your longterm goal?\";
JFrame frame;
JPanel contentPane;
JLabel label, label1;
JButton button;
JButton button1;
private static int i;
public Riddle() {
/* Create and set up the frame */
frame = new JFrame(LABEL_TEXT);
frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
/* Create a content pane with a GridLayout and empty borders */
contentPane = new JPanel();
contentPane.setLayout(new GridLayout(0, 2, 10, 5));
/* Create and add label that is centered and has empty borders */
label = new JLabel(\"Why did the chicken cross the road?\");
label.setAlignmentX(JButton.LEFT_ALIGNMENT);
label.setBorder(BorderFactory.createEmptyBorder(20, 50, 20, 50));
contentPa.
Litumus is a weak acid which can be simply written as HLit. The un-i.pdfannapurnnatextailes
Litumus is a weak acid which can be simply written as HLit. The un-ionised litmus is red,
whereas the ion is blue.
When the solution is basic, hydroxide ions are added. So more of Litumus ions are obtained.
Litumus ions absorb orange color. Hence we observe a blue color.
Similarly, when the solution is acidic, the equilibrium shifts to unionized litumus which absorbs
blue green. Hence we observe a red color.
Hope this helps
Solution
Litumus is a weak acid which can be simply written as HLit. The un-ionised litmus is red,
whereas the ion is blue.
When the solution is basic, hydroxide ions are added. So more of Litumus ions are obtained.
Litumus ions absorb orange color. Hence we observe a blue color.
Similarly, when the solution is acidic, the equilibrium shifts to unionized litumus which absorbs
blue green. Hence we observe a red color.
Hope this helps.
Let x = amount ($) invested in Fund B then 4x = amount ($) inves.pdfannapurnnatextailes
Let x = amount ($) invested in Fund B
then
4x = amount ($) invested in Fund A
.
.03x + .02(4x) = 1210
.11x=1210
x=$11000
that means $11000 amount ($) is invested in Fund B
Solution
Let x = amount ($) invested in Fund B
then
4x = amount ($) invested in Fund A
.
.03x + .02(4x) = 1210
.11x=1210
x=$11000
that means $11000 amount ($) is invested in Fund B.
can\'t you use one cell to fine the Ecell and then plug it in other one to find the
concentration
Solution
can\'t you use one cell to fine the Ecell and then plug it in other one to find the
concentration.
c. CH3CH2CCH note: alkyne has a CC triple bond, thus it can only bonds to one
substituent.
Solution
c. CH3CH2CCH note: alkyne has a CC triple bond, thus it can only bonds to one
substituent..
Information technology and itsimpact n underrgraduate technology edu.pdfannapurnnatextailes
Information technology and itsimpact n underrgraduate technology education in science,
mathematics, engineering and technology :
Solution
Information technology and itsimpact n underrgraduate technology education in science,
mathematics, engineering and technology :.
How to Build a Module in Odoo 17 Using the Scaffold MethodCeline George
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বাংলাদেশের অর্থনৈতিক সমীক্ষা ২০২৪ [Bangladesh Economic Review 2024 Bangla.pdf] কম্পিউটার , ট্যাব ও স্মার্ট ফোন ভার্সন সহ সম্পূর্ণ বাংলা ই-বুক বা pdf বই " সুচিপত্র ...বুকমার্ক মেনু 🔖 ও হাইপার লিংক মেনু 📝👆 যুক্ত ..
আমাদের সবার জন্য খুব খুব গুরুত্বপূর্ণ একটি বই ..বিসিএস, ব্যাংক, ইউনিভার্সিটি ভর্তি ও যে কোন প্রতিযোগিতা মূলক পরীক্ষার জন্য এর খুব ইম্পরট্যান্ট একটি বিষয় ...তাছাড়া বাংলাদেশের সাম্প্রতিক যে কোন ডাটা বা তথ্য এই বইতে পাবেন ...
তাই একজন নাগরিক হিসাবে এই তথ্য গুলো আপনার জানা প্রয়োজন ...।
বিসিএস ও ব্যাংক এর লিখিত পরীক্ষা ...+এছাড়া মাধ্যমিক ও উচ্চমাধ্যমিকের স্টুডেন্টদের জন্য অনেক কাজে আসবে ...
Exploiting Artificial Intelligence for Empowering Researchers and Faculty, In...Dr. Vinod Kumar Kanvaria
Exploiting Artificial Intelligence for Empowering Researchers and Faculty,
International FDP on Fundamentals of Research in Social Sciences
at Integral University, Lucknow, 06.06.2024
By Dr. Vinod Kumar Kanvaria
How to Manage Your Lost Opportunities in Odoo 17 CRMCeline George
Odoo 17 CRM allows us to track why we lose sales opportunities with "Lost Reasons." This helps analyze our sales process and identify areas for improvement. Here's how to configure lost reasons in Odoo 17 CRM
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
A review of the growth of the Israel Genealogy Research Association Database Collection for the last 12 months. Our collection is now passed the 3 million mark and still growing. See which archives have contributed the most. See the different types of records we have, and which years have had records added. You can also see what we have for the future.
How to Setup Warehouse & Location in Odoo 17 InventoryCeline George
In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.