Compare and contrast the ideas that led to the Bohr model of the atom to the ideas that led to the
quantum mecchanical theory that gave rise to the hydrogen atom wave functions.
Solution
The difficulty with the planetary picture provided before the Bohr model is that it is inconsistent
with a well established fact of classical electrodynamics which says that an accelerated electric
charge must continually radiate energy. If electrons actually followed such a trajectory, all atoms
would act as source of radiation. The radiated energy would come from the kinetic energy of the
orbiting electron; as this energy gets radiated away, As a result the electron would quickly fall
into the nucleus. According to classical physics, no atom based on this model could exist for
more than a brief fraction of a second.
In contrary The Bohr model is a mixture of classical physics and quantum physics. The main
postulated of Bohr\'s orbit are as follows:
1.) The electron in the atom moves in a circular orbit centred on its nucleus. Its motion in the
orbit is governed by the Coulomb electric force between the negatively charged electron and the
positively charged proton.The radius of orbit can be given as [r = nh/(2*pi*m*v), where n is
principal quantum number.Emission spectrum of hydrogen is nicely explained by Bohr model.
However, one serious difficulty with the Bohr model was that it was unable to explain the
spectrum of any atom more complicated than hydrogen.
2.) An electron in a Bohr orbit does not continuously radiate electromagnetic radiation. Its
energy is therefore constant. The orbit is referred to as a stationary orbit.
3.) Electromagnetic radiation isonlyemitted when the electron changes from one orbit to another
of a lower total energy. (The electron is said to undergo atransition.) In such a case, the energy
lost, E, is emitted asonequantum of radiation of frequencyfas given by thePlanck–Einstein
formula:
E = hf
Although the Bohr model hypothesis for the quantization of angular momentum can be justified
in terms of electron wave ideas, the Bohr model remains profoundly unsatisfactory as a wave
model for the atom and also was not able to answer that why it doesn\'t fall into the nucleus. The
main failures of Bohr\'s model are:
- a mixture of classical and quantum ideas (electrons move classically on orbits, but their
possible energy states are quantified)
- postulates that on the allowed orbits electrons do not radiate
(conflict with Maxwell’s theory)
- could not account for the maximal electron numbers on one shell
- could not explain splitting of the spectral lines in magnetic fields
- it is a non-relativistic theory although the speed of the electrons is close to c
In the Quantum Mechanical Model, the electron is treated mathematically as a wave. The
electron has properties of both particles and waves. The advantage of Quantum Mechanical
model over Bohr model is that it was successful to give explaination of the fact that electron does
not fall in.
Quantum mechanical model of atom belongs to XI standard Chemistry which describes the quantum mechanics concept of atom, quantum numbers, shape and energies of atomic orbitals.
Quantum mechanical model of atom belongs to XI standard Chemistry which describes the quantum mechanics concept of atom, quantum numbers, shape and energies of atomic orbitals.
This would enable students to explain the emission spectrum of hydrogen using the Bohr model of the hydrogen atom; calculate the energy, wavelength, and frequencies involved in the electron transitions in the hydrogen atom; relate the emission spectra to common occurrences like fireworks and neon lights; and describe the Bohr model of the atom and the inadequacies of the Bohr model.
It is a notes of Bohr-Sommerfeld atomic model for graduate students.
For more information on this topic, kindly visit our blog at;
https://jayamchemistrylearners.blogspot.com/2022/04/bohr-sommerfeld-model-chemistrylearners.html
BOHRS MODEL AND ITS LIMITATIONS,Concept of shells and subshells, dual nature of matter and light, de broglie's relationship, heisenberg uncertainty principle, concept of orbitals, rules for filling electrons in orbitals-Aufbau principle.
Pauli's exclusion principle and hunds rule, electronic configuration of atoms, stability of half filled and completely filled orbitals.
How the Bohr Model of the Atom Accounts for Limitations with Classical Mechan...Thomas Oulton
This small essay concisely outlines how Classical mechanics was deemed unacceptable when describing the motions of electrons within an atom through the observations made by hydrogen spectra, and how this lead to a revolution in atomic theory. Included is a brief overview of how Bohr arrived at his model through applying quantum mechanics.
Written for; First year Undergraduate study,
Materials Science and Engineering,
The University of Sheffield
Graded at 78%
4.1 The Atomic Models of Thomson and Rutherford
4.2 Rutherford Scattering
4.3 The Classic Atomic Model
4.4 The Bohr Model of the Hydrogen Atom
4.5 Successes and Failures of the Bohr Model
4.6 Characteristic X-Ray Spectra and Atomic Number
4.7 Atomic Excitation by Electrons
A presentation on atomic structure and chemical bond. Here you can find the full details of atomic structure and 5 types of chemical bond. This is for the course of Inorganic Pharmacy, Course code is PHAR-1103. This can be also used for Biochemistry students and other.
Thank you. Like, Commen, Share
#be like boss
In the negative feedback control system of the papillary light refle.pdfarjuncollection
In the negative feedback control system of the papillary light reflex, what are the physiological
processes that represent what engineers call the controller, plant, feedback element, controlling,
controlled, feedback variables?
Solution
EdingerWestphal nuclei of brain (controller) lead to change in neural traffic down the efferent
nerves back to the eyes (controller action). It affects the plant retina by feedback sensors
sphincter muscles and radial dilator muscles which relax and contract respectively. The output is
increase in pupil area..
images of a Hindu deity such as Shiva, Vishnu, Kali, Ganesh, or any .pdfarjuncollection
images of a Hindu deity such as Shiva, Vishnu, Kali, Ganesh, or any other Hindu deity that
interests you. What did you notice about these images? Were there common features that you
could identity from image to image?
Solution
Images of the deities portray them as the supreme power. They all fought against Asura or the
Demons. They all have some or other kind of Astra or weapons to fight. Trishula being supreme
and most powerful weapon. Another common thing they all have is they all have a Vahana i.e
vehicle of gods and these vahanas all are animals..
More Related Content
Similar to Compare and contrast the ideas that led to the Bohr model of the ato.pdf
This would enable students to explain the emission spectrum of hydrogen using the Bohr model of the hydrogen atom; calculate the energy, wavelength, and frequencies involved in the electron transitions in the hydrogen atom; relate the emission spectra to common occurrences like fireworks and neon lights; and describe the Bohr model of the atom and the inadequacies of the Bohr model.
It is a notes of Bohr-Sommerfeld atomic model for graduate students.
For more information on this topic, kindly visit our blog at;
https://jayamchemistrylearners.blogspot.com/2022/04/bohr-sommerfeld-model-chemistrylearners.html
BOHRS MODEL AND ITS LIMITATIONS,Concept of shells and subshells, dual nature of matter and light, de broglie's relationship, heisenberg uncertainty principle, concept of orbitals, rules for filling electrons in orbitals-Aufbau principle.
Pauli's exclusion principle and hunds rule, electronic configuration of atoms, stability of half filled and completely filled orbitals.
How the Bohr Model of the Atom Accounts for Limitations with Classical Mechan...Thomas Oulton
This small essay concisely outlines how Classical mechanics was deemed unacceptable when describing the motions of electrons within an atom through the observations made by hydrogen spectra, and how this lead to a revolution in atomic theory. Included is a brief overview of how Bohr arrived at his model through applying quantum mechanics.
Written for; First year Undergraduate study,
Materials Science and Engineering,
The University of Sheffield
Graded at 78%
4.1 The Atomic Models of Thomson and Rutherford
4.2 Rutherford Scattering
4.3 The Classic Atomic Model
4.4 The Bohr Model of the Hydrogen Atom
4.5 Successes and Failures of the Bohr Model
4.6 Characteristic X-Ray Spectra and Atomic Number
4.7 Atomic Excitation by Electrons
A presentation on atomic structure and chemical bond. Here you can find the full details of atomic structure and 5 types of chemical bond. This is for the course of Inorganic Pharmacy, Course code is PHAR-1103. This can be also used for Biochemistry students and other.
Thank you. Like, Commen, Share
#be like boss
Similar to Compare and contrast the ideas that led to the Bohr model of the ato.pdf (20)
In the negative feedback control system of the papillary light refle.pdfarjuncollection
In the negative feedback control system of the papillary light reflex, what are the physiological
processes that represent what engineers call the controller, plant, feedback element, controlling,
controlled, feedback variables?
Solution
EdingerWestphal nuclei of brain (controller) lead to change in neural traffic down the efferent
nerves back to the eyes (controller action). It affects the plant retina by feedback sensors
sphincter muscles and radial dilator muscles which relax and contract respectively. The output is
increase in pupil area..
images of a Hindu deity such as Shiva, Vishnu, Kali, Ganesh, or any .pdfarjuncollection
images of a Hindu deity such as Shiva, Vishnu, Kali, Ganesh, or any other Hindu deity that
interests you. What did you notice about these images? Were there common features that you
could identity from image to image?
Solution
Images of the deities portray them as the supreme power. They all fought against Asura or the
Demons. They all have some or other kind of Astra or weapons to fight. Trishula being supreme
and most powerful weapon. Another common thing they all have is they all have a Vahana i.e
vehicle of gods and these vahanas all are animals..
Identify each of the enzymes involved in DNA replication and whether.pdfarjuncollection
Identify each of the enzymes involved in DNA replication and whether they are used during
synthesis of the leading strand, lagging strand, or both
Solution
ANS:
REPLICATION:
Replication is a process of duplication of DNA .the replication had specific time in S
phase. All the cellular molecules had timing programed inside the cells, the time depends on
species. Replication occur during the S phase of eukaryotic cell cycle.it is highly accurate
process and involved the faithful transmission of the genetically information from parental DNA
to two daughter DNA duplexes.
Replication involves the polymerization of precursor of d NTPs (d ATP, d GTP, d CTP, d TTP).
B. ENZYMOLOGY IN REPLICATION:
Replication is a complex process the various enzymes/proteins are involved in this.
1. DNA polymerase:
It can polymerized the d NTP’s directed by template strand of DNA so called DNA
DEPENDENT DNA POLYMARASE.
In eukaryotes 5 different DNA polymerase are there (Pol Alfa, Pol Beta, Pol Gama, Pol Delta
and Pol Epsilon).
DNA Pol Alfa can initiate replication in both leading and lagging strands, it dual activity so often
called as Pol Alfa/ primase enzyme.
DNA pol Delta is a major replication enzyme involved in the replication of both leading and
lagging strands.
2. DNA A protein: also called initiation protein, it involved in recognition & binding to origin.
3. DNA HELICASE: 1st component in replisoma, it possess an ATPase activity, it separates the
2 parental strands of DNA, It always binds to lagging strand.
4. PRIMASE: Involved in synthesis of RNA primer, always binds to helicase results the
formation of primosome.
5. SSB protein: It prevents reannealing of DNA, it removes the secondary structure prevent in
DNA.
6. DNA Topoisomerase 1: Relaxes tension due to un coiling of dna.it binds downstream of
replication fork.
7. DNA Gyrase: It binds up stream of replication fork and introduces Negative supercoiling.
8. DNA LIGASE: It covalently seals the nick between the adjacent okazaki fragments.
9. Termination protein: Also called TUS protein, binds the TER sites results termination.
10. DNA Topoisomerase 4: Involved in decapitation of the 2 circular daughter DNA duplexes
obtained after replication.
Synthesis of the leading strand and lagging strand:
Semi –conservative mechanism:
In this the 2 strands of DNA separated from each other and each strand act as template for
synthesis of anew complimentary strand ,such daughter duplex contain 1 parental and 1 newly
synthesize strand.
Replication always began from fixed point called origin.as unwinding DNA produced a Y
shaped junction called REPLICATIONPORK. That represents origin of replication.
As the replication pork moved in one direction the DNA copies continuously in both strands.
Then the replication missionary should be able to synthesize in both 5\'-3\' and 3\'-5\' direction.
But the DNA polymerase involved in replication can added a new nucleotide only to 3\'end of
growingchain.so DNA always synthesized in 5\'-3\' .
How and what do sea stars eatSolutionSea Star eat clams, oyste.pdfarjuncollection
How and what do sea stars eat?
Solution
Sea Star eat clams, oysters sand dollars and mussels, They all are attached to rocks or move very
slowly. They can eat injured fish and snails also. but not all starfish eat Fishes, however. Some
species of sea star find decomposing plants and fishes or other sea animal in the sea water and
consume them.
Most of Sea Star eat by prying inside their stomach which have following Step.
Sea star also digesting prey from outside their bodies which help to sea star to eat larger animal..
Estimate the time needed for the Point in Polyhedron test for a poly.pdfarjuncollection
Estimate the time needed for the Point in Polyhedron test for a polyhedron with v vertices, e
edges, and f faces? Please explain in details.
THIS IS WHAT I KNOW.
The line L intersects P if and only if there is a face F that has a point q in common with L. On the
plane containing the face F, + defines a ray beginning at q. This ray intersects F in an odd
number of sides, since q lies inside F. It follows that + intersects an odd number of edges
bounding F.
If, however, the line and a face do not intersect, the half-plane can intersect only an even number
of edges of this face. This proves the theorem.
This theorem provides the basis for the following algorithm which solves the intersection of a
line and a polyhedron problem.
Consider an edge of P and test for intersection with +. If the edge and the half-plane have only
one point in common, then the counters for the two faces containing the edge are incremented by
1 (the counters for the faces of P are initially zeroed.) If after all of the edges have been tested at
least one of the counters has an odd value, then L and P intersect.
This algorithm is based on a simple test for the intersection of an edge (line segment) and a half-
plane.
Consider a point p and a polyhedron P. Take an arbitrary line L passing through p and an
arbitrary plane passing through L. Let L+ denote one of the parts of L divided by p, and let + be
one of the half-planes obtained by dividing with L. We say that an edge e of P is marked if +
intersects e and only one of the two planes of faces of P that share e intersects L+. Suppose +
does not pass through vertices of P.
Then p belongs to P if and only if the number of marked edges is odd, and p lies outside P if this
number is even.
Solution
and look at the network we get after performing Step 1 just once. Now, by drawing a diagonal
we added one edge. Our original face has become two faces, so we have added one to the
number of faces. We haven\'t changed the number of vertices. The network now has V vertices,
E + 1 edges and F + 1 faces. So how has V - E + F changed after we performed Step 1 once?
Using what we know about the changes in V, E and F we can see that V - E + F has become V -
(E + 1) + (F + 1). Now we have
V - (E + 1) + (F + 1) = V - E - 1 + F + 1 = V - E + F..
Discuss the binary representation of Char strings. What makes th.pdfarjuncollection
Discuss the binary representation of Char strings. What makes this tricky?
Discuss the binary representation of Char strings. What makes this tricky?
Discuss the binary representation of Char strings. What makes this tricky?
Solution
void strings_to_binary(char* st)
{
// temporary buffer for conversion
char temp[9];
while (*st)
{
// itoa is built in function that converts to bits
itoa(*st, output, 2);
putchar(output);
putchar(\'/n\')
++st;
}
}
output:
strings_to_binary(\'efg\');
01100101
01100110
01100111.
Describe a possible difference in the DNA content of chromosome 1.pdfarjuncollection
Describe a possible difference in the DNA content of chromosome 1 between a chromatid in a
somatic cell and a monad in a sperm cell.
Describe a possible difference in the DNA content of chromosome 1 between a chromatid in a
somatic cell and a monad in a sperm cell.
Solution
Answer:
Chromatid of somatic cell consists of two two DNA molecules whereas monad of a sperm cell
consists of a single DNA..
Consider the following function. Find the inverse function State the.pdfarjuncollection
Consider the following function. Find the inverse function State the domain and range of f.
(Enter your answers using interval notation.)
Solution
Fisrt part is correct ie. F^-1 = sqrt(7x +7)
domain and range of function f (x) = 1/2 x^2 - 1 is all values of x greater than equal to 0
domain ( -inf, +inf)
Range : find Y intercpt by plugging x=0 we get y =-1
[ -1, + inf)
Domain of inverse function: Check where function does not exist: 7x+7 >=0
x> = -1
Domain:: [ -1 , inf)
Range : f(x) exist for >=0
So, [0, inf).
Blackboard Learn Realtor Rite Aid Citizens Bank peoples CPOBIE UI.pdfarjuncollection
Blackboard Learn Realtor Rite Aid Citizen\'s Bank people\'s CPOBIE UI Blackboard Learn KN
Question Completion Status: QUESTION 19 For what values of x does the function shown in
the graph appear to be increasing? all values of no values of X 20
Solution
In the graph first we can see that the function is decreasing through out. So for no value of x the
function is increasing. Option D
In next graph the function is negative for x <0 so Option A.
According to the Shannon-Hartley theorem, the capacity of a communic.pdfarjuncollection
According to the Shannon-Hartley theorem, the capacity of a communications channel in bits per
second is given by C=Blog2 ((s/n)+1) where B is the frequency bandwidth of the channel in
hertz and s/n is its signal-to-noise ratio. It is physically impossible to exceed this limit. Solve the
equation for the signal-to-noise ratio s/n.
Solution
C = B*log2( 1+s/n)
divide both sides by B:
(C/B) = log2(1+s/n)
Use the log property : loga(b) = x ----: b = a^x
So, 1+ s/n = 2^(C/B)
( signal-to-noise ratio) S/N = 2^(C/B) -1.
A fellow student, one that is not as careful as you, finds the follow.pdfarjuncollection
A fellow student, one that is not as careful as you, finds the following: They have produced 2
plates of media, and inoculated each plate with three different bacterial samples. Unfortunately,
they have labeled none of their plates. The plates have the following appearances: Plate 1 The
media is a dark red (burgundy) color, 3 different bacteria were inoculated onto the plate and
bacteria are growing in all 3 of the sections of the plate. Section A: you observe growth of
bacteria with a translucent/clear region around all colonies. Section B: you observe growth with
no change in the color of the media around all colonies. Section C: you observe growth with a
greenish color around all colonies. Plate 2: The media is a pale purple color, 3 different bacteria
were inoculated onto the plate, and organisms are growing in 2 of the sections of the plate.
Section A: you observe no growth of bacteria at all. Section B: you observe bacterial growth
with pink colonies. Section C: you observe bacterial growth with colorless/white colonies.
Using the diagrams on the next page, COMPLETELY interpret these results-this means I want to
know what enzymes are active. First tell me what media are represented for each plate, what the
media\'s properties are (selective, differential, any pH indicators), whether the media is selective
and/or differential. Second fully interpret the type organisms that are present in each of the three
sections of each plate, including enzymes, and whether the bacteria is Gram positive or Gram
negative.
Solution
Answer:
Plate 1: The dark red colour media is Eosine-methylene blue (EMB) agar due to the presence of
methylene blue and eosine dye. It is a selective and differencial culture medium. It is used for
selective growth of gram negative bacteria and differentiate the growth of lactose fermenting and
lactose non-fermenting coliforms. The details is given below:
Lactose fermenter
E. coli
Explaination: In the presence of an acidic environment (low pH) after the fermentation of
lactose, EMB forms a complex that precipitates out onto the coliform colonies, producing dark
centers and greenish sheen around the colonies. This reaction is characterstics of Escherichia
Coli. In addition, other weaker fermentation of lactose results in colonies with a pinkish-purple
color with no change around the colonies as their is low change of pH of growth medium.
However, in absence of an acidic environment the dye is not absorbed. Thus, the colonies of
lactose non-fermentors will be colorless.
Plate 2: The pale purple colour media is MacConkey agar due to the presence of crystal violet
dye. It is a selective and differencial culture medium used for selective growth of gram negative
bacteria and differentiate the growth of lactose fermenting and lactose non-fermenting coliforms.
The details is given below:
Explaination: MacConkey agar is detect the growth of coliforms and enteric pathogens based on
their ability to ferment lactose. Lactose fermenting c.
2. There are special proteins (called transporters) that are able to.pdfarjuncollection
2. There are special proteins (called transporters) that are able to move protons (H+) into or out
of cells. These proteins can be seen to be at work if the pH inside and/or outside the cell changes.
However, the pH is only seen to go down outside the cell when ATP (adenosine triphosphate, an
energy providing molecule) is present. Is the proton movement an example of active or passive
movement? Which way are the protons moving? Is this an example of an endergonic or an
exogonic reaction?
Solution
Movement of proton is an example of primary active transport as it uses redox energy of
mitochondrial electron transport from NADH and makes protons moves across the inner
mitochondrial membrane against their concentration gradient. Movment of proton depends upon
the concentration gradient which way it is low it will move that way. As it uses the energy from
ATP it is considered to be endergonic reaction..
A bacterium that has flagella arranged as a tuft at one end of the b.pdfarjuncollection
A bacterium that has flagella arranged as a tuft at one end of the bacterium has what type of
flagella arrangement?
Solution
Flagellum is a thread like structure especially a microscopic whip like appendage which enables
many protozoa, bacterium , spermatozoa, etc., to swim.
Several flagellum (tuft) can extend from one end or both ends of the cell. This arrangement is
called lophotrichous..
11. Recessive epistasis is described by all of the following EXCEPT.pdfarjuncollection
11. Recessive epistasis is described by all of the following EXCEPT:
A. it is observed in coat color in Labrador retrievers.
B. it has two genes interacting to produce three phenotypes instead of four.
C. it involves one gene controlling the expression of another.
D. it gives the modified Mendelian ratio of 12:3:1.
E. Actually, all of these describe recessive epistasis.
12. Coat color is determined by two loci in large cats. Two pink panthers fall in love and produce
a large litter of baby panthers with the following phenotypic ratios: 12/16 pink; 3/16 black; and
1/16 white. What is the genotype of the white progeny?
A. aa bb
B. A_ B_ and A_ bb
C. A_ B_
D. A_ bb
E. aa B_
13. Traits that have differential expression in the two sexes are known as:
A. sex-linked.
B. sex-influenced.
C. autosomal.
D. sex-determined.
E. None of the above.
14. Polydactyly is the condition of having extra fingers or toes. Some polydactylous persons
possess extra fingers or toes that are fully functional, whereas others possess only a small tag of
extra skin. This is an example of
A. complete dominance.
B. cytoplasmic inheritance.
C. complementation.
D. independent assortment.
E. variable expressivity.
15. A mother with blood type A has a child with blood type A. Give all possible blood types for
the father of this child.
A. A, AB
B. A, B, AB, O
C. O
D. B, AB
E. A, B, O
16. Considering cases of incomplete dominance:
A. the heterozygote has a phenotype intermediate between the homozygotes
B. the homozygote has a phenotype intermediate between the heterozygotes.
C. the heterozygote has a phenotype identical to one of the homozygotes.
D. the homozygote has a phenotype identical to one of the heterozygotes.
E. None of the above.
17. A mother with blood type A has a child with blood type AB. Give all possible blood types
for the father of this child.
A. A, B, AB, O
B. A, B, O
C. O
D. B, AB
E. A, AB
18. Gene interaction produces all of the following phenomena EXCEPT:
A. recessive epistasis.
B. duplicate recessive epistasis.
C. dominant epistasis.
D. duplicate interaction.
E. Actually, all of these are recognized forms of gene interaction
19. In order to determine if mutations from different organisms that exhibit the same phenotype
are allelic, which test would you perform?
A. Allelic series test
B. Biochemical test
C. Epistasis test
D. Complementation test
E. Test cross
20. Interactions among the human ABO blood group alleles involve _______ and ________.
A. complete dominance; incomplete dominance
B. co-dominance; complete dominance
C. epistasis; complementation
D. codominance; incomplete dominance
E. continuous variation; environmental variation
Solution
Answer:
11. (D) It gives the modified Mendelian ratio of 12:3:1
12. (B) A_ B_ and A_ bb
13. (B) Sex-influenced
Characters whose expression in a particular genotype depends on whether the individual is male
or, female, are known as sex influenced traits. In one of the sexes, an allele may be dominant
while it may be reces.
Write complete VHDL codes for the following schematic. Solution.pdfarjuncollection
Write complete VHDL codes for the following schematic.
Solution
for shift reg:
library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
-- Uncomment the following library declaration if using
-- arithmetic functions with Signed or Unsigned values
--use IEEE.NUMERIC_STD.ALL;
-- Uncomment the following library declaration if instantiating
-- any Xilinx primitives in this code.
--library UNISIM;
--use UNISIM.VComponents.all;
entity pipo is
Port ( ClrN,load,clk : in STD_LOGIC;
D3,D2,D1,D0 : in STD_LOGIC;
Q3,Q2,Q1,Q0 : out STD_LOGIC);
end pipo;
architecture Behavioral of pipo is
component D_ff is
Port ( clock,ClrN : in STD_LOGIC;
D : in STD_LOGIC;
Q : out STD_LOGIC);
end component;
signal clock:STD_LOGIC;
begin
clock<= load and clk;
u3:D_Ff port map(clock,ClrN,D3,Q3);
u2:D_Ff port map(clock,ClrN,D2,Q2);
u1:D_Ff port map(clock,ClrN,D1,Q1);
U0:D_Ff port map(clock,ClrN,D0,Q0);
end Behavioral;
for D-Flipflop:
entity D_FF is
Port ( clock,ClrN : in STD_LOGIC;
D : in STD_LOGIC;
Q : out STD_LOGIC);
end D_FF;
architecture Behavioral of D_FF is
begin
process(clk,ClrN)
begin
if(ClrN = \'0\') then
if(falling_edge(clk)) then
Q <= D;
end if;
else
Q <= \'0\';
end if;
end process;
end Behavioral;.
Why do carrier-mediated processes become saturated (choose the best .pdfarjuncollection
Why do carrier-mediated processes become saturated (choose the best answer)? Question 8
options:
A:The carriers are very specific.
B:The number of carriers in a membrane is limited.
C:The concentration gradient is too strong.
D:The amount of ATP in the cell is limited.
E:The concentration gradient is too weak
Solution
Answer is E.
It is a passive process in which the solutes move down the concentration gradient..
Why is it that linked lists are better when it comes to needing freq.pdfarjuncollection
Why is it that linked lists are better when it comes to needing frequent add(), remove(), and get()
operations?
Solution
1.Linked list permits the constant time insertions or removals with iterators.
2.The items are able to add or remove from the center of the list.
3.interpretating the starting size of an array is not needed.
4.insert and delete manipulations are simply accomplished in a linkedlist.
5.allocation and deallocation is possible at the time of programm running.
6.the main advantage of using linkedlist is reusing of current iterators to insert and delete
element..
Which of the following isare characteristic of the parasympathetic .pdfarjuncollection
Which of the following is/are characteristic of the parasympathetic nervous system, but not of
the sympathetic nervous system?
A ganglia in or near target tissues
B nicotinic receptors on postganglionic neurons
C muscarinic receptors on some target tissues
D 1 receptors on some target tissues
E 1 receptors on some target tissues
Solution
A. ganglia in or near target tissues. The parasympathetic nervous system is a slower system that
moves along longer pathways. Preganglionic fibres from the medulla or spinal cord project
ganglia close to the target organ. They create a synapse, which eventually creates the desired
response..
What statistic is often interpreted as providing an estimate of the .pdfarjuncollection
What statistic is often interpreted as providing an estimate of the average difference between a
statistic and a parameter?
Solution
The standard deviation, which finds the root of the mean squared-difference. It is interpreted as a
measure of the average difference between the sample mean (statistic) and population mean
(parameter)..
The waiting time X until delivery of a new component for an indus.pdfarjuncollection
The waiting time X until delivery of a new component for an industrial operation is uniformly
distributed over the interval from 1 to 5 days. The cost of this delay is given by probability
density function for Y.
Solution
uniform distribution over the interval from 1 to 5
x = 1 / (5-1 ) = 1/4
y = 2* (1/4)^2 + 3
y = 3.125.
Model Attribute Check Company Auto PropertyCeline George
In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
Embracing GenAI - A Strategic ImperativePeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
Biological screening of herbal drugs: Introduction and Need for
Phyto-Pharmacological Screening, New Strategies for evaluating
Natural Products, In vitro evaluation techniques for Antioxidants, Antimicrobial and Anticancer drugs. In vivo evaluation techniques
for Anti-inflammatory, Antiulcer, Anticancer, Wound healing, Antidiabetic, Hepatoprotective, Cardio protective, Diuretics and
Antifertility, Toxicity studies as per OECD guidelines
Palestine last event orientationfvgnh .pptxRaedMohamed3
An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
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.
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.
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
This Congress will not stand idly by and allow an environment hostile to Jewish students to persist. The House believes that your institution is in violation of Title VI of the Civil Rights Act, and the inability or
unwillingness to rectify this violation through action requires accountability.
Postsecondary education is a unique opportunity for students to learn and have their ideas and beliefs challenged. However, universities receiving hundreds of millions of federal funds annually have denied
students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
The House of Representatives will not countenance the use of federal funds to indoctrinate students into hateful, antisemitic, anti-American supporters of terrorism. Investigations into campus antisemitism by the Committee on Education and the Workforce and the Committee on Ways and Means have been expanded into a Congress-wide probe across all relevant jurisdictions to address this national crisis. The undersigned Committees will conduct oversight into the use of federal funds at MIT and its learning environment under authorities granted to each Committee.
• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
• The Committee on Oversight and Accountability is investigating the sources of funding and other support flowing to groups espousing pro-Hamas propaganda and engaged in antisemitic harassment and intimidation of students. The Committee on Oversight and Accountability is the principal oversight committee of the US House of Representatives and has broad authority to investigate “any matter” at “any time” under House Rule X.
• The Committee on Ways and Means has been investigating several universities since November 15, 2023, when the Committee held a hearing entitled From Ivory Towers to Dark Corners: Investigating the Nexus Between Antisemitism, Tax-Exempt Universities, and Terror Financing. The Committee followed the hearing with letters to those institutions on January 10, 202
Compare and contrast the ideas that led to the Bohr model of the ato.pdf
1. Compare and contrast the ideas that led to the Bohr model of the atom to the ideas that led to the
quantum mecchanical theory that gave rise to the hydrogen atom wave functions.
Solution
The difficulty with the planetary picture provided before the Bohr model is that it is inconsistent
with a well established fact of classical electrodynamics which says that an accelerated electric
charge must continually radiate energy. If electrons actually followed such a trajectory, all atoms
would act as source of radiation. The radiated energy would come from the kinetic energy of the
orbiting electron; as this energy gets radiated away, As a result the electron would quickly fall
into the nucleus. According to classical physics, no atom based on this model could exist for
more than a brief fraction of a second.
In contrary The Bohr model is a mixture of classical physics and quantum physics. The main
postulated of Bohr's orbit are as follows:
1.) The electron in the atom moves in a circular orbit centred on its nucleus. Its motion in the
orbit is governed by the Coulomb electric force between the negatively charged electron and the
positively charged proton.The radius of orbit can be given as [r = nh/(2*pi*m*v), where n is
principal quantum number.Emission spectrum of hydrogen is nicely explained by Bohr model.
However, one serious difficulty with the Bohr model was that it was unable to explain the
spectrum of any atom more complicated than hydrogen.
2.) An electron in a Bohr orbit does not continuously radiate electromagnetic radiation. Its
energy is therefore constant. The orbit is referred to as a stationary orbit.
3.) Electromagnetic radiation isonlyemitted when the electron changes from one orbit to another
of a lower total energy. (The electron is said to undergo atransition.) In such a case, the energy
lost, E, is emitted asonequantum of radiation of frequencyfas given by thePlanck–Einstein
formula:
E = hf
Although the Bohr model hypothesis for the quantization of angular momentum can be justified
in terms of electron wave ideas, the Bohr model remains profoundly unsatisfactory as a wave
model for the atom and also was not able to answer that why it doesn't fall into the nucleus. The
main failures of Bohr's model are:
- a mixture of classical and quantum ideas (electrons move classically on orbits, but their
possible energy states are quantified)
- postulates that on the allowed orbits electrons do not radiate
(conflict with Maxwell’s theory)
2. - could not account for the maximal electron numbers on one shell
- could not explain splitting of the spectral lines in magnetic fields
- it is a non-relativistic theory although the speed of the electrons is close to c
In the Quantum Mechanical Model, the electron is treated mathematically as a wave. The
electron has properties of both particles and waves. The advantage of Quantum Mechanical
model over Bohr model is that it was successful to give explaination of the fact that electron does
not fall inside nucleus.
The Bohr model was a one-dimensional model that used one quantum number to describe the
distribution of electrons in the atom. The only information that was important was the size of the
orbit, which was described by “n” the principle quantum number. Unlike Bohr's model,
Quantum Mechanical Model allowed the electron to occupy three-dimensional space. It therefore
required three coordinates, or three quantum numbers, to describe the distribution of electrons in
the atom. Therefore nucleus is surrounded by electron cloud because of Heisenberg's uncertainty
principle; one cannot measure the exact position of a particle. In this case, the electron cloud is a
region where an electron can be probably found. Quantum Numbers used to give information
about the location of an electron in an atom with respect to its energy level, sublevel, orbital, and
spin. Every electron has a set of four quantum numbers. No two electrons have the same set of
four quantum numbers. So hydrogen atom wave functions can be expressed in terms of all set of
quantum numbers.
