in the wave mechanical model (electron cloud model) where are the electrons found
in the wave mechanical model (electron cloud model) where are the electrons found
Homework Answers
Ans :
The wave mechanical model or the electron cloud model is the current accepted model of the atom.
According to this model , the highest probability of finding the electron is in the atomic orbital. These atomic orbitals are not all spheres , but also different shapes , unlike the previous models that assigned the electrons specific shells in the atoms.
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in the wave mechanical model (electron cloud model) where are
the electrons found
the electron cloud is the space sureounding the nucleus and contains the electrons. explain the electron...
the electron cloud is the space sureounding the nucleus and
contains the electrons. explain the electron cloud using the terms
orbitals, sub orbitals ans orbital (cubes). include the number of
electrons in eaxh orbital and sub orbital.
5. The electron cloud is the space surrounding the nucleus and contains the electrons. Explain the electron cloud using the terms orbitals, sub orbitals and orbitals (cubes). Include the number of electrons in each orbital and sub orbital for full credit. *
In class we discussed a simple model for an atom, in which a cloud of negative...
In class we discussed a simple model for an atom, in which a cloud of negative charge (the electrons) surrounds a fixed nucleus of positive charge. Develop the details of this model as follows: Suppose an atom has one electron with charge -e and a ucleus of charge e 1.6 x 10-19 C, and the electronic charge is uniformly distributed over a sphere with the Bohr radius a0 4 E0n°/(me2) 5.29% 10-11 m If the electron cloud is displaced a...
Orbitals which result from solving the Schrodinger Wave Equation can be represented by electron "cloud" pictures....
Orbitals which result from solving the Schrodinger Wave Equation can be represented by electron "cloud" pictures. The shapes of the orbitals are distinguished by their nodes, places where the electron density equals zero. Erwin Schrödinger Based upon the number of spherical and angular nodes, label the orbitals below as 1s, 2p, etc. Specify the value of n and I for each: This is a orbital This is a orbital This is a orbital and I n and 1 and I...
18. How does the wave model of electrons orbiting the Hydrogen nucleus account for the fact that the electrons can have only discrete energy levels? a) the number of wavelengths and the nucleus a...
18. How does the wave model of electrons orbiting the Hydrogen nucleus account for the fact that the electrons can have only discrete energy levels? a) the number of wavelengths and the nucleus are complementary b) only an integral number of wavelengths are allowed for orbits c) the electrons all have the same charge d) the protons have the same charge as electron but positive e) quantum effects are negligible at this range
18. How does the wave model of...
BONUS: Electron Cloud In the Bohr model of hydrogen, the electron is treated as a point...
BONUS: Electron Cloud In the Bohr model of hydrogen, the electron is treated as a point particle orbiting the nucleus at a distance of Og . 5.3. 10-11 m Reality is not so simple, however. The charge of the electron is distributed around the nucleus in a spherically symmetrie, nonuniform manner. (ais merely the most probable distance between the electron and the nucleus.) In this problem, we will explore the electric fields within a hydrogen atom using Gauss' law. Treat...
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A free electron has a wave function ψ(x)= Asin (5x1010 x) where x is measured in...
A free electron has a wave function ψ(x)= Asin (5x1010 x) where x is measured in meters. Find the electron's de Broglie wavelength the electron's momentum a. b, 3. When an electron is confined in the semi-infinite square, its wave function will be in the form Asin kx for0<x<L ψ(x)- Ce for x> L having L = 5 nm and k = 1.7 / nm. a. Find the energy of the state. b. Write down the matching conditions that the...
Section 1 Element Bohr Model Valence Electrons Electron-Dot Structure Sodium Carbon Element Bohr Model Valence Electrons...
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Problem 1. Wave function An electron is described by a wave function: for x < 0...
Problem 1. Wave function An electron is described by a wave function: for x < 0 *(z) = { ce Ce-s/1(1 – e-3/4) for x > 0 : where I is a constant length, and C is the normalization constant. 1. Find C. 2. Where an electron is most likely to be found; that is, for what value of x is the prob: bility for finding electron largest? 3. What is the average coordinate 7 of the electron? 4. What...
1. Transverse Mechanical Wave A transverse wave on a cord is given by D(x,t)=0.20 sin(3.0x-‐‐15.0t),where D...
1. Transverse Mechanical Wave A transverse wave on a cord is given by D(x,t)=0.20 sin(3.0x-‐‐15.0t),where D and x are in m and t is in sec. (a) Calculate the period of the wave motion.(b) Calculate the propagation speed of the wave. (c) Calculate the acceleration of the particle on the cord at x=1 m and t=0.2 sec. Whatwould be its maximum, possible acceleration?(d) If the cord is under the constant tension of F=25.0 N, what is its linear massdensity?
the electron cloud is the space sureounding the nucleus and
contains the electrons. explain the electron cloud using the terms
orbitals, sub orbitals ans orbital (cubes). include the number of
electrons in eaxh orbital and sub orbital.
5. The electron cloud is the space surrounding the nucleus and contains the electrons. Explain the electron cloud using the terms orbitals, sub orbitals and orbitals (cubes). Include the number of electrons in each orbital and sub orbital for full credit. *
In class we discussed a simple model for an atom, in which a cloud of negative charge (the electrons) surrounds a fixed nucleus of positive charge. Develop the details of this model as follows: Suppose an atom has one electron with charge -e and a ucleus of charge e 1.6 x 10-19 C, and the electronic charge is uniformly distributed over a sphere with the Bohr radius a0 4 E0n°/(me2) 5.29% 10-11 m If the electron cloud is displaced a...
Orbitals which result from solving the Schrodinger Wave Equation can be represented by electron "cloud" pictures. The shapes of the orbitals are distinguished by their nodes, places where the electron density equals zero. Erwin Schrödinger Based upon the number of spherical and angular nodes, label the orbitals below as 1s, 2p, etc. Specify the value of n and I for each: This is a orbital This is a orbital This is a orbital and I n and 1 and I...
18. How does the wave model of electrons orbiting the Hydrogen nucleus account for the fact that the electrons can have only discrete energy levels? a) the number of wavelengths and the nucleus are complementary b) only an integral number of wavelengths are allowed for orbits c) the electrons all have the same charge d) the protons have the same charge as electron but positive e) quantum effects are negligible at this range
18. How does the wave model of...
BONUS: Electron Cloud In the Bohr model of hydrogen, the electron is treated as a point particle orbiting the nucleus at a distance of Og . 5.3. 10-11 m Reality is not so simple, however. The charge of the electron is distributed around the nucleus in a spherically symmetrie, nonuniform manner. (ais merely the most probable distance between the electron and the nucleus.) In this problem, we will explore the electric fields within a hydrogen atom using Gauss' law. Treat...
A free electron has a wave function ψ(x)= Asin (5x1010 x) where x is measured in meters. Find the electron's de Broglie wavelength the electron's momentum a. b, 3. When an electron is confined in the semi-infinite square, its wave function will be in the form Asin kx for0<x<L ψ(x)- Ce for x> L having L = 5 nm and k = 1.7 / nm. a. Find the energy of the state. b. Write down the matching conditions that the...
Section 1 Element Bohr Model Valence Electrons Electron-Dot Structure Sodium Carbon Element Bohr Model Valence Electrons Electron-Dot Structure Oxygen Chlorine Nitrogen Section 10 Compound Bond Type (or C) Electron-Dot for Atom 1 Electron-Dot for Atom 2 Lewis-Dot Structure ΝΗ, Compound Name: Nad Compound Name: COM Compound Name: mpound Name: wompound Name: MgCl2 Compound Name: CHCI Compound Nome: CH Compound Nome:
Problem 1. Wave function An electron is described by a wave function: for x < 0 *(z) = { ce Ce-s/1(1 – e-3/4) for x > 0 : where I is a constant length, and C is the normalization constant. 1. Find C. 2. Where an electron is most likely to be found; that is, for what value of x is the prob: bility for finding electron largest? 3. What is the average coordinate 7 of the electron? 4. What...
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