Question #1 Hydrogen atom consists of one electron and one proton. In the Bohr model of...
Question #1
Hydrogen atom consists of one electron and one proton. In the
Bohr model of the Hydrogen atom, the electron orbits the proton in
a circular orbit of radius 0.529 E-10 m. This radius is known as
the Bohr Radius.
Calculate the smallest amount of kinetic energy the
electron must have in order to leave its circular orbit and move to
infinity far from the proton?
Question #2
The potential in a region between x = 0 and x = 6 m is
V = a + bx
where
a = 10 V
b = -7 V/m.
a) What is the electric potential at x = 0, 3, and 6
meters?
b) What is the magnitude and direction of the electric field at the
same points
Homework Answers
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#1
Hydrogen atom consists of one electron and one proton. In the
Bohr model of...
In the Bohr model of the hydrogen atom an electron orbits a proton in a circular...
In the Bohr model of the hydrogen atom an electron orbits a proton in a circular orbit od radius 0.53x 10^-10 m (a) what is the eclectric potential at the electrons orbit due to the proton? (b) What is the kinetic energy of the electron? (c) what is the total energy of the electron in its orbit?(d) What is the ionization energy that is the energy required to remove the electron from the atom ant take it to rest ?
In the Bohr model of the hydrogen atom, an electron orbits a proton (the nucleus) in...
In the Bohr model of the hydrogen atom, an electron orbits a proton (the nucleus) in a circular orbit of radius 0.52x10-10 m. (a) What is the electric potential at the position of the electron's orbit due to the proton? (b) What is the kinetic energy of the electron? Express the result in eV and J. (c) What is the total energy of the electron in its orbit? Express the result in eV and J. (d) What is the ionization...
In the Bohr model of the hydrogen atom, an electron orbits a proton (the nucleus) in...
In the Bohr model of the hydrogen atom, an electron orbits a proton (the nucleus) in a circular orbit of radius 0.52x10-10 m. (a) What is the electric potential at the position of the electron's orbit due to the proton? (b) What is the kinetic energy of the electron? Express the result in eV and J. (c) What is the total energy of the electron in its orbit? Express the result in eV and J. (d) What is the ionization...
In an early model of the hydrogen atom (the Bohr model), the electron orbits the proton...
In an early model of the hydrogen atom (the Bohr model), the electron orbits the proton in uniformly circular motion. The radius of the circle is restricted (quantized) to certain values given by rn2 for n1,2, 3.,.. where ao52.92 pm. What is the speed of the electron if it orbits in (a) the smallest allowed orbit and (b) the third smallest orbit? (c) If the electron moves to larger orbits, does its speed increase, decrease, or stay the same?
In an early model of the hydrogen atom (the Bohr model), the electron orbits the proton...
In an early model of the hydrogen atom (the Bohr model), the electron orbits the proton in uniformly circular motion. The radius of the circle is restricted (quantized) to certain values given by r = n^2a_0, for n = 1, 2, 3, ..., where a_0 = 52.92 pm. What is the speed of the electron if it orbits in (a) the smallest allowed orbit and (b) the seventh smallest orbit? (c) If the electron moves to larger orbits, does its...
The Bohr model of the hydrogen atom treats the atom as consisting of an electron orbiting...
The Bohr model of the hydrogen atom treats the atom as consisting of an electron orbiting a massive, stationary proton in a circular path of radius ao, equal to 0.529*10^-10 m. Calculate the speed of an electron in this circular orbit. Calculate the electric potential at a radius 0.4*ao, measured from the proton. Is gravity a significant factor in this situation? Does the problem statement make any assumptions that might be invalid? pt a. (7 pts) Find the value of...
In the Bohr model of the Hydrogen atom, a single electron orbits around a single proton...
In the Bohr model of the Hydrogen atom, a single electron orbits around a single proton (which constitutes the nucleus). The mass of the electron (9.11x10-31 kg) is much less than the proton (1.67x10-27 kg), so the proton remains stationary while the electron moves around it. If the electron is 6.6x10-11 m away from the proton, calculate the magnitude of the electric force (in N) exerted by the proton on the electron. b) [Continued ...] In the Bohr model, an...
In the Bohr model, the hydrogen atom consists of an electron in a circular orbit of...
In the Bohr model, the hydrogen atom consists of an electron in a circular orbit of radius a0 = 5.29 x 10-11 m around the nucleus. Using this model, and ignoring relativistic effects, what is the speed of the electron? The mass of the electron is 9.11 X 10-31 kg.
In the Bohr model of the atom, electrons travel in circular orbits around a nucleus in...
In the Bohr model of the atom, electrons travel in circular orbits around a nucleus in much the same way that planets orbit the sun. Within this model, and electron in a hydrogen atom orbits the proton in a circle with radius 5.29×10−11m. What is the electric potential energy of the hydrogen atom?
In the Bohr model of the hydrogen atom, the electron in the n = 6 level...
In the Bohr model of the hydrogen atom, the electron in the n = 6 level moves in a circular orbit of radius 1.91 x 10m around the proton. Assume the orbital angular momentum of the electron is equal to 6h/2. (a) Calculate the orbital speed of the electron. m/s (b) Calculate the kinetic energy of the electron (c) Calculate the angular frequency of the electron's motion. rad/s
In the Bohr model of the hydrogen atom, an electron orbits a proton (the nucleus) in a circular orbit of radius 0.52x10-10 m. (a) What is the electric potential at the position of the electron's orbit due to the proton? (b) What is the kinetic energy of the electron? Express the result in eV and J. (c) What is the total energy of the electron in its orbit? Express the result in eV and J. (d) What is the ionization...
In the Bohr model of the hydrogen atom, an electron orbits a proton (the nucleus) in a circular orbit of radius 0.52x10-10 m. (a) What is the electric potential at the position of the electron's orbit due to the proton? (b) What is the kinetic energy of the electron? Express the result in eV and J. (c) What is the total energy of the electron in its orbit? Express the result in eV and J. (d) What is the ionization...
In an early model of the hydrogen atom (the Bohr model), the electron orbits the proton in uniformly circular motion. The radius of the circle is restricted (quantized) to certain values given by rn2 for n1,2, 3.,.. where ao52.92 pm. What is the speed of the electron if it orbits in (a) the smallest allowed orbit and (b) the third smallest orbit? (c) If the electron moves to larger orbits, does its speed increase, decrease, or stay the same?
In an early model of the hydrogen atom (the Bohr model), the electron orbits the proton in uniformly circular motion. The radius of the circle is restricted (quantized) to certain values given by r = n^2a_0, for n = 1, 2, 3, ..., where a_0 = 52.92 pm. What is the speed of the electron if it orbits in (a) the smallest allowed orbit and (b) the seventh smallest orbit? (c) If the electron moves to larger orbits, does its...
The Bohr model of the hydrogen atom treats the atom as consisting of an electron orbiting a massive, stationary proton in a circular path of radius ao, equal to 0.529*10^-10 m. Calculate the speed of an electron in this circular orbit. Calculate the electric potential at a radius 0.4*ao, measured from the proton. Is gravity a significant factor in this situation? Does the problem statement make any assumptions that might be invalid? pt a. (7 pts) Find the value of...
In the Bohr model of the hydrogen atom, the electron in the n = 6 level moves in a circular orbit of radius 1.91 x 10m around the proton. Assume the orbital angular momentum of the electron is equal to 6h/2. (a) Calculate the orbital speed of the electron. m/s (b) Calculate the kinetic energy of the electron (c) Calculate the angular frequency of the electron's motion. rad/s
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