# What was Erwin Schrodinger famous for?

In Physics

# Which atomic model did erwin schrodinger create?

SchrÃ¶dinger's wave equation was based on the Heisenberg uncertainty principal that the position and velocity of a electron cannot be determined accurately (accuracy in one will sacrifice accuracy in another). SchrÃ¶dinger's wave equation gave a wave function, which squared gave the probability …cloud of electrons. Therefore, SchrÃ¶dinger's contribution resulted in the electron cloud model of the atom. (MORE)

# Who was Erwin Rommel?

Who was Erwin Rommel? Erwin Rommel (15 Novemver 1891 - 14 October 1944) was a German general who rose to fame as commander of the Axis forces fighting the British in North Africa (1941-43). A clever tactician who used his numerically inferior forces to such great advantage that his reputation bec…ame a threat to Allied morale. Finally overwhelmed by superior numbers, he returned to Europe where he was put in charge of organising the defence of the French coast (so-called "Atlantic Wall") prior to the Normandy landings in June 1944. Badly wounded by an air attack on his staff car, he returned to Germany. Implicated in the July (1944) plot to assassinate Hitler but was so popular that he was not put on trial. Instead was given the option of committing suicide which he took in order that his family would not be harmed. Buried with full military honours (it was said that he had died of his wounds). His son later became Mayor of Stuttgart in post-war Germany. lie he comited sucide on 10/14/1944 because he didn't want to go though his trial. btw Vincent wrote this. A German general. (MORE)

# What did Erwin Schrodinger contribute to science?

He contributed to the atomic theory, which was originally thought of by John Dalton. .
This is the Atomic Theory: .
1 Each element is composed of extremely small particles called atoms. .
2 All atoms of a given element are identical. .
3 Atoms of different elements have different… properties, including mass and chemical reactivity. .
4 Atoms are not changed by chemical reactions, but merely rearranged into different compounds. .
5 Compounds are formed when atoms of more than one element combine. .
6 A compound is defined by the number, type (element), and proportion of the constituent atoms (MORE)

# Where did Erwin Schrodinger receive his Nobel Prize?

idk. i dont even know when he win it? dont get mad at me you don't know the answer either. gosh.

# What did Erwin Schrodinger discover?

He discovered the electron cloud model theory and made the Sschrodinger equation, which is the foundation for the quatum mechanics in its wave formation. He aslo had a partner named Wermer Heisenburg.

# Where did Erwin Schrodinger grow up?

well his home town was Vienna, Austria so that might just be where he grew up at

# Proof of schrodinger wave equation?

Assumptions:.
1- The total energy E of a particle is .
.
This is the classical mechanics expression for a particle with mass m where the total energy E is the sum of the kinetic energy , , and the potential energy V . p is the momentum of the particle or mass times velocity.… The potential energy is assumed to vary with position , and possibly time as well..
Note that the energy E and momentum p appear in the following two relations:.
2- Einstein's light quanta hypothesis of 1905: .
::: where the frequency f of the quanta of radiation (photons) are related by Planck's constant h . .
3- The de Broglie hypothesis of 1924: .
::: where is the wavelength of the wave. This hypothesis also requires: .
4- The association of a wave (with wavefunction Ï) with any particle. .
Combining the above assumptions yields SchrÃ¶dinger's equation:.
Expressing frequency f in terms of angular frequency and wavelength in terms of wavenumber , with we get:.
.
and.
.
where we have expressed p and k as vectors ..
SchrÃ¶dinger's great insight, late in 1925, was to express the phase of a plane wave as a complex phase factor :.
.
and to realize that since.
.
then.
.
and similarly since:.
.
then.
.
and hence:.
.
so that, again for a plane wave, he obtained:.
.
And by inserting these expressions for the energy and momentum into the classical mechanics formula we started with we get SchrÃ¶dinger's famed equation for a single particle in the 3-dimensional case in the presence of a potential V :.
.
Using this equation, SchrÃ¶dinger computed the spectral lines for hydrogen by treating a hydrogen atom's single negatively charged electron as a wave, , moving in a potential well , V , created by the positively charged proton . This computation tallied with experiment for the Lyman , Balmer , Paschen and Brackett series, the Bohr model and also the results of Werner Heisenberg 's matrix mechanics - but without having to introduce Heisenberg's concept of non-commuting observables . SchrÃ¶dinger published his wave equation and the spectral analysis of hydrogen in a paper in 1926. [2] .
Assumptions:.
1- The total energy E of a particle is .
.
This is the classical mechanics expression for a particle with mass m where the total energy E is the sum of the kinetic energy , , and the potential energy V . p is the momentum of the particle or mass times velocity. The potential energy is assumed to vary with position , and possibly time as well..
Note that the energy E and momentum p appear in the following two relations:.
2- Einstein's light quanta hypothesis of 1905: .
::: where the frequency f of the quanta of radiation (photons) are related by Planck's constant h . .
3- The de Broglie hypothesis of 1924: .
::: where is the wavelength of the wave. This hypothesis also requires: .
4- The association of a wave (with wavefunction Ï) with any particle. .
Combining the above assumptions yields SchrÃ¶dinger's equation:.
Expressing frequency f in terms of angular frequency and wavelength in terms of wavenumber , with we get:.
.
and.
.
where we have expressed p and k as vectors ..
SchrÃ¶dinger's great insight, late in 1925, was to express the phase of a plane wave as a complex phase factor :.
.
and to realize that since.
.
then.
.
and similarly since:.
.
then.
.
and hence:.
.
so that, again for a plane wave, he obtained:.
.
And by inserting these expressions for the energy and momentum into the classical mechanics formula we started with we get SchrÃ¶dinger's famed equation for a single particle in the 3-dimensional case in the presence of a potential V :.
.
Using this equation, SchrÃ¶dinger computed the spectral lines for hydrogen by treating a hydrogen atom's single negatively charged electron as a wave, , moving in a potential well , V , created by the positively charged proton . This computation tallied with experiment for the Lyman , Balmer , Paschen and Brackett series, the Bohr model and also the results of Werner Heisenberg 's matrix mechanics - but without having to introduce Heisenberg's concept of non-commuting observables . SchrÃ¶dinger published his wave equation and the spectral analysis of hydrogen in a paper in 1926. [2] .
Assumptions:.
1- The total energy E of a particle is .
.
This is the classical mechanics expression for a particle with mass m where the total energy E is the sum of the kinetic energy , , and the potential energy V . p is the momentum of the particle or mass times velocity. The potential energy is assumed to vary with position , and possibly time as well..
Note that the energy E and momentum p appear in the following two relations:.
2- Einstein's light quanta hypothesis of 1905: .
::: where the frequency f of the quanta of radiation (photons) are related by Planck's constant h . .
3- The de Broglie hypothesis of 1924: .
::: where is the wavelength of the wave. This hypothesis also requires: .
4- The association of a wave (with wavefunction Ï) with any particle. .
Combining the above assumptions yields SchrÃ¶dinger's equation:.
Expressing frequency f in terms of angular frequency and wavelength in terms of wavenumber , with we get:.
.
and.
.
where we have expressed p and k as vectors ..
SchrÃ¶dinger's great insight, late in 1925, was to express the phase of a plane wave as a complex phase factor :.
.
and to realize that since.
.
then.
.
and similarly since:.
.
then.
.
and hence:.
.
so that, again for a plane wave, he obtained:.
.
And by inserting these expressions for the energy and momentum into the classical mechanics formula we started with we get SchrÃ¶dinger's famed equation for a single particle in the 3-dimensional case in the presence of a potential V :.
.
Using this equation, SchrÃ¶dinger computed the spectral lines for hydrogen by treating a hydrogen atom's single negatively charged electron as a wave, , moving in a potential well , V , created by the positively charged proton . This computation tallied with experiment for the Lyman , Balmer , Paschen and Brackett series, the Bohr model and also the results of Werner Heisenberg 's matrix mechanics - but without having to introduce Heisenberg's concept of non-commuting observables . SchrÃ¶dinger published his wave equation and the spectral analysis of hydrogen in a paper in 1926. [2] (MORE)

# What atomic theory did Erwin Schrodinger discover?

SchrÃ¶dinger's wave equation was based on the Heisenberg uncertainty principal that the position and velocity of a electron cannot be determined accurately (accuracy in one will sacrifice accuracy in another). SchrÃ¶dinger's wave equation gave a wave function, which squared gave the probability …cloud of electrons. Therefore, SchrÃ¶dinger's contribution resulted in the electron cloud model of the atom. (MORE)

# What did Schrodinger do?

He came up with an amazing equation that describes very small things, and proposed a ridiculous thought experiment.

# Who was Erwin Schrödinger?

Erwin Schrödinger (born August 12, 1887 in Vienna; died January 4,1961 in Vienna) was an Austrian physicist who won the Nobel Prizein Physics in 1933 and the Max Planck Medal in 1937.

# What are three facts about Erwin Schrodinger?

He won a Nobel Prize. He was personal friends with Einstein. His father was a botanist.

# What did Erwin Chargaff do?

Developed Charagaff's rule which states the number of purines in DNA is equal to the amount of pyrimidines. Example: G+A = T+C (Purines) = (Pyrimidines)

# Did Erwin Schrodinger contribute to the electron cloud atomic model?

Yes, he did he came up with the Schrodinger's equation which helped predict and calculate the energy of atoms as electrons move around. His equation gave a wave function, which squared gave the probability cloud of electrons. So his contribution resulted in the electron cloud model of the atom.

# When did erwin schrodinger create the atomic model?

Erwin Schroedinger created his model of the atom in 1926.Schroedinger was an Austrian physicist who won the Nobel Prize inPhysics in 1933.

# Who is Schrodinger and Heisenberg?

SchrÃ¶dinger and Heisenberg are known to be two of the important founders of quantum mechanics. They both invented a mathematical formalism for quantum mechanics. Schrodinger's formalism which was based on the wave equation was the most popular one. Heisenberg's formalism was based on the notion o…f quantum jumps (the innate "randomness" of sub-atomic physics the very reason that the famous "Schrodinger's cat" is not alive or dead...). Heisenberg's formalism was innovative but more difficult to handle. The difference on the formalism reflects their different views on the interpretation of quantum mechanics; Schrondinger was more a realist and he was sharing Einstein view that randomness is not desirable in the description of sub-atomic physics. Heisenberg on the other hand was more a supporter of the Copenhagen Interpretation of quantum mechanics which interprets the sub-atomic randomness as an innate characteristic of the sub-atomic world and the very heart of quantum physics theory. (MORE)

# Who was Erwin Montgomery?

I just wondering if you are mixing two people up here. Erwin Rommel, The Desert Fox Bernard Montgomery, or Monty as he was known

# Where did Erwin Schrodinger live?

Vienna, Austria is where Erwin Schrodinger was born and where hedied. In between, he lived for a while in Zurich, Switzerland;Berlin, Germany; Oxford, England; Graz, Austria; and Dublin,Ireland.

# When did Erwin Schrodinger live?

Erwin Schrodinger, the Austrian physicist, lived from August 12,1887 to January 4, 1961. He passed away in Vienna, Austria at theage of 73.

# What does the Schrodinger wave equation show?

\nThe SchrÃ¶dinger wave equation shows the interactions between particles and potential fields (i.e., electrons within atoms) by describing the behavior of such a system. Elaborating a little more, a particle is described by what is called a wavefunction. This wavefunction has a space (x,y,z) and… time (t) dependency and is continuous, finite and single valued. Therefore the SchrÃ¶dinger wave partial differential equation shows how the wavefunction of a system behaves over time. (MORE)

# Who is erwin chargaff and what did he do?

DNA composition: "Chargaffs rules".
- varies from species to species - amounts of 4 bases not equal - bases present in characteristic ratio humans: A = 30.9% T = 29.4% G = 19.9% C = 19.8%.
DNA composition: "Chargaffs rules".
- varies from species to species - amounts of 4 bases …not equal - bases present in characteristic ratio humans: A = 30.9% T = 29.4% G = 19.9% C = 19.8% (MORE)

# Who is erwin chargoff?

Erwin Chargaff was an Austrian biochemist who emigrated to the United States during the Nazi era and was a Professor of biochemistry at Columbia University medical school. Through careful experimentation, Chargaff discovered two rules that helped lead to the discovery of the double helix structure o…f DNA. (MORE)

# Who was Schrodinger and what did he call his cat?

He was a physicist that is most known for working with quantum mechanics. Schrodinger's cat was his thought on the uncertaintiness of the modern model of quantum mechanics. The cat was either dead or alive but also neither.

# What are the contributions of erwin schrodinger in physics?

He mathematically calculated theregion around a nucleus of atom where electrons may exist or he calculated the probability to find the electron around nucleus.

# What did erwin schrodinger invented?

Schroedinger was a theorist, not an inventor. To the best of my knowledge, he didn't "invent" anything.

# What was Steve erwin?

he was a kind of explorer kind of guy he had a television show he looked at animals and stuff. kind of like those nature programs, but he died a few years ago after being bitten (i think by a jellyfish).

# What was erwin schrodinger and werner heisenberg's theory?

Schrodinger came up the Schrodinger Equation. Which is the foundation for quantum mechanics in its wave formulation. Heisenberg is most famous for his uncertainty principle. Which basically says that certain parts of observables cannot be known simultaneously with an arbitrary precision.

# What was Schrodinger contribution to the atomic theory?

Schrodinger used mathematical equations to describe the location and energy level of an electron. He developed the quantum mechanics model (the widely accepted atomic model today). He also proposed the wave theory of matter.

# Did Erwin Schrodinger have kids?

yes, actually he did...... he had 3 kids with his wife.... this was found in the birth records of Vienne, Austria..

# How did erwin schrodinger come up with his atomic theory?

Erwin Schrodinger familiarized himself with the quantum theory workof Plank and Einstein. His move to Germany allowed contact withHermann Weyl who put a mathematical spin on the atomic structureallowing him to envision energy asa statistical concept.

# How did schrodinger get into science?

schrodinger's dad worked with albert Einstein. Schrodinger looked up to Einstein and was amazed by his ways of thinking. Einstein inspired Schrodinger to become a scientist.

# What is Steve erwin famous and what are some of the things he or she achieved?

Stephen Robert Irwin (22 February 1962 - 4 September 2006), known simply as Steve Irwin and nicknamed " The Crocodile Hunter ", was an iconic Australian television personality, wildlife expert, and conservationist. He achieved worldwide fame from the television program The Crocodile Hunter … , an internationally broadcast wildlife documentary series co-hosted with his wife Terri Irwin . Together, they also co-owned and operated Australia Zoo , founded by his parents in Beerwah , Queensland . He died in 2006 after being fatally pierced in the chest by a stingray barb while filming in Australia's Great Barrier Reef. (from wikipedia's Steve Irwin page) (MORE)

# How do you derive schrodinger wave equation?

The SchrÃ¶dinger wave equation cannot be derived (at least not by any known means). Erwin SchrÃ¶dinger literally guessed the equation (though his guess had reason behind it), and justification for its use can be attributed to the simple fact that it works. Thought it was guess when SchrÃ¶din…ger formulated his wave equation he drew from a classical foundation. Total energy is equal to the kinetic energy plus the potential energy. Classically kinetic energy is expressed as p 2 /(2m), where p is momentum and m is the mass. The potential can be whatever you want it to be so we will just call it V, then finally lets call the total energy E. We put this all together to get p 2 /(2m)+V=E but in terms of operators p=[i*h/(2*pi)]*(d 2 /dq i 2 ), where i is the square root of negative one, h is Planck's constant, pi is 3.141529, and (d 2 /dq i 2 ) is the second order differential with respect to space in generalized coordinates. So putting p back in our equation for energy we get [- h 2 /(4*pi*m)]*(d 2 /dq i 2 )+V=E. Now comes the sort of complex part. In general the total energy of a system is defined by the Hamiltonian, lets call is H. Now, E is the eigenvalue of the Hamiltonian operator. Meaning that when H operates on some state it is measuring the total energy of that state. In quantum mechanics H=[i*h/(2*pi)]*(d/dt), where (d\dt) is the first order differential with respect to time. Now putting this all together we get [i*h/(2*pi)]*(d/dt)=[- h 2 /(4*pi*m)]*(d 2 /dq i 2 )+V. That, to me, is Schrodinger's "picture" of the wave equation. - Sorry it is a bit lengthy but I wanted to be thorough. (MORE)

# What awards did Erwin Schrodinger win?

The Nobel Prize in Physics 1933 was awarded jointly to Erwin SchrÃ¶dinger and Paul Adrien Maurice Dirac "for the discovery of new productive forms of atomic theory"

# Who is erwin Fred?

Fred Figglehorn is a fictional character created and portrayed byAmerican actor Lucas Cruikshank. Fred is a six-year-old boy, with ahigh pitched voice, and has a dysfunctional home life and "angermanagement issues."

# What did the model of the atom proposed by Erwin Schrodinger suggest?

Schrodinger is the author of the well known equation; this equationcan describe an atom. That there was a great deal of uncertainty as to where things wereand that waves were as important as particles.

# What are the applications of time dependent Schrodingers equation?

Being a physicist I do not know too much about the applications. But in general the time dependent Schrodinger Equation tells us how a quantum state evolves in time. I believe this might be applicable to things like flash/thumb drives, and computers in general.

# How many children did schrodinger have?

He had one daughter named Ruth Georgie Erica. She was born on 30 May 1934.

# Why did schrodinger use probability?

Erwin SchrÃ¶dinger was a physicist and a father of quantum mechanics. Quantum mechanics deals a lot with probability. His famous SchrÃ¶dinger equation, which deals with how the quantum state of a physical system changes in time, uses probability in how it deals with the local conservation of pro…bability density. For more information, please see the Related Link below. (MORE)

# How to solve Schrodingers wave equation?

(SKIP FOR EXAMPLE) The solution to Schrodinger's equation depends on the potential energy of the particle. Potential energy is, in general, a function of the position; thus, each situation requires solving Schrodinger's equation for that particular potential. What is to be obtained in solving Shc…rodinger's equation is the wave function for the object in mind. This wave function allows us to determine the probability of observing a particle at some position/time (summed over all positions must be 1 since the particle must be observed somewhere), the energy of the particle, the momentum, etc. Once you know the potential you are dealing with, Schrodinger's equation is solved using techniques of partial differential equations. If one has studied single variable differential equations and is willing to accept a hand waving argument one can solve Schrodinger's equation in one dimension. The equation itself isn't a particularly difficult differntial equation, but partial differential equations in general are difficult to understand. I suggest reading Griffith's book on quantum mechanics if you are truly interested. (EXAMPLE: If this is too much, read the paragraphs above.) If considering a potential well (0 potential inside the well and infinite potential outside, which has a broad range of applications), centered at the origin, for a particle, and allowing me to make said hand waving argument, a solution may be derived. For convention I will take (f*) to be the time derivative of f and f' to be the x derivative (f is the second x derivative) of f. Also I will take h_ to be the reduced planck's constant (simply planck's constant diveded by 2Pi) and i to be the imaginary unit. Schrodinger's equation with constant potential and our new convention becomes: (1): -[(h_ 2 )/2m] f+V f=i h_ (f*) In equation (1) f is the wave function, which is what we are solving for. Applying separation of variables yields a differential equation in F and T, where F is a function of position, T is a function of time, and the product of F and T is our wavefunction, i.e., f=F*T. The equations for F and T are: (2): (T*)=-[(i E)/h_]T (3): -[(h_ 2 )/2m] F''=[E-V] F where the constant E is the energy the particle has. This E is a constant from separation of variables. If I did not know it would work out to be the energy of the particle I could have used another variable only to find out later that it must be the energy of the particle. Equation (3) tells us that the second derivative of F is proportional to F itself. Equation (2) has the solution (if you don't understand this part you need to take differential equations): (4): T=e^(-[i E/h_]t) where t is time. Any multiple of this equation is a solution, but the same happens for equation (3), thus we let an arbitrary constant be assigned later rather than in equation (4). Solving equation (3) yields: (5): F=A cos(-[2m/(h_ 2 )][E-V]x) A is an arbitrary constant since any multiple of the solution is itself a solution (superposition principle). To get rid of this constant we impose that F be normalized, i.e., that the particle must be found somewhere. Inside the well V is 0, thus the wave function is sinusoidal. Since we know it must be zero at the walls we can impose constraints on E. This quantization of energy agrees with observations of quantum energies. Outside the well V is infinite, thus the wave function is 0 since we do not expect to observe our particle here. Our constraints on E and normalization constant are: (6): E=-[h_ 2 /2m][n Pi/L] (where n is an integer and L is the length of the well) (7): A=1/Sqrt[L] Putting all this together, the wave equation for our particle is: (6): f=F*T=e^(-[2m/(h_ 2 )][E-V]x) e^(-[i E/h_]t)/Sqrt[L] This whole thing is a convoluted mess, and to make things worse, this is one of the simplest cases of Schrodinger's equation. The point, though, is that it is not impossible, and also, that solving the equation depends on the potential you are given. Schrodinger's equation applies to all things. The difficulty is in knowing the potential function, and furthermore, solving the equation for real world potentials. (MORE)

# What did Rudolf Josef Alexander Schrodinger discovered?

The Schrodinger Equation, an imortant part of quantum physics. He is also know for a thought experiment called "Schrodingers Cat", which is much debated among theoretical physicists.

# What is the appllication of schrodinger wave equation?

Shroedinger's wave equation is used to find the wavefunction of a particle, telling us everything we can possibly know about that particle at that time.

# How did bohr and schrodinger describe the atom?

Bohr's model was only for the hydrogen atom, and it showed that electrons orbit the nucleus in definite paths. Schrodinger used the Heisenberg uncertainty principle, and his model showed that electrons have only a certain probability of being in a region around the nucleus. Add me in facebook …Walter_Design03@yahoo.com (MORE)

# What evidence did Erwin Schrodinger have to support is theory?

When Schrodinger applied his mathematical formulae to the permitted states of an electron in a hydrogen atom, he found they perfectly matched the Bohr Model, which had perfectly predicted hydrogen spectral lines. For Schrondinger, that was good enough for him to publish his work. Max Born later show…ed that the Schrodinger Equation could be used to accurately predict particle scattering from a nucleus. However, Born showed that this would only work if one assumes that the cross-product of Schrodinger's Wave Function represents the probability of a point charge being in a specific place; something that Schrodinger never accepted. (MORE)

# What does schrodinger wave equation state?

Schrodinger equation provides relation between particles involved in the event, its energy and wave function (its derivatives).

# How does Schrodinger agrees with Heisenberg's principle?

They both describe the nature of the wave/particle duality They also both point to the uncertainty of quantum mechanics

# What is the limitations of schrodinger wave equation?

The biggest limitation by far is that an exact solution is possible for only a small number of initial conditions. For example, one can figure out the solution for permitted states of one electron around a nucleus. However, there is no exact solution for even two electrons around a nucleus.

# Who was schrodinger?

Erwin Schrodinger was born 1887 in Vienna and died in 1961, also in Vienna. He was a Physicist and one of the fathers of Quantum Mechanics. His primary area of concentration was Wave Theory. He won the Nobel Physics Prize in 1933 along with Dirac. As a matter for further study, he was also the 'fath…er' of Schrodinger's Cat. (MORE)

# What are the differences in the use of the time-dependent Schrodinger equation and the time-independent Schrodinger equation?

The time-independent Schrödinger equation is used for quantum mechanical systems who's state does not change over time and the time-dependent Schrödinger equation is used for systems who's state does evolve over time. In either case, the Schrödinger equation can be solved to obtain the wavefunct…ion of the system. For a system who's state changes over time, the wavefunction of the system will also be time-dependant and for a system who's state does not change over time, the wavefunction will be time-independent. (MORE)

# What thought experiment did Erwin Schrodinger create?

The thought experiment Erwin Schrodinger created was "Schrodinger's cat" which at times has been described as a paradox. Schrodinger created this experiment in the year 1935.

# Where is the Erwin Public Library in Erwin located?

The address of the Erwin Public Library is: 110 W F St, Erwin, 28339 2029