please help with clear steps -
Calculate the radius of third Bohr’s orbit of hydrogen atom. Given
h=6.62×10-34 J.s
qe=1.6×10-19 C
me=9.1×10-31 kg
k=9×109 Nm2/C2
please help with clear steps - Calculate the radius of third Bohr’s orbit of hydrogen atom....
6. An electron of mass 9.1 x 10-31 kg and charge -1.6 x 10-19 C rotates around the nucleus of the hydrogen atom in a circular orbit of radius 5.3 x 10-1lm. (a). Write down the equation of motion for the electron (F-ma) specifically for this physical situation; the constant in Coulomb's law is k 9x 10 Nm/C2. Using this result, find the time for the electron to make one complete circular orbit. (b). An electron's rotation creates an effective...
(25%) Problem 2: Consider a hydrogen atom with a proton at the center and an electron in the orbit. The proton and the electron are separated by 5.3 x 10-10 meters. The Proton has a charge of 1.6 x 10-19 C, and the electron has a charge of -1.6 x 10-19 C. Take Coulomb's constant k to be 9 x 109 N-m?/c2 tud Grad Dedu Potent sin cotan) asin) tan() | π acosO Subm Attem cosO 78 9 detail atan)...
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.
5. Consider a Hydrogen atom with radius R = 5.29x10m. current loop. If Treat the orbiting electron as a this electron-proton system is placed in a magnetic field of 0.400T which is perpendicular to the magnetic moment of the loop, what is the torque ? (me = 9.11x10-31 kg 191- 1.60*10-19 C)
14. Consider the hydrogen atom. (a) What value of wavelength is associated with the Lyman series for n = 2? (Rydberg constant RH = 1.097 x 10^7 m^-1). (b) An electron in a hydrogen atom makes a transition from the n = 4 to the n = 3 energy state. Determine the energy (in eV) of the emitted photon. (c) Calculate the radius, speed. linear momentum. and de Broglie wavelength of the electron in the first Bohr orbit. (me =...
with required formula the position 5. Consider a electron as Hydrogen atom with radius R = 5.29x10"m. current loop. If Treat the on orbiting this electron-proton system is placed in a magnetic field of 0.400T which is perpendicular to the magnetic moment of the loop, what is the torque ? (me = 9.11*10-31 kg , 1968- 1.60*10'SC)
ON as Consider Hydrogen atom with radius R = 5.29x10 m. Treat the orbiting electron current loop. If this electron-proton system is placed in a magnetic field of 0.400 T which is perpendicular to the magnetic moment of the loop, what is the torque ? (me=9.11*10-31 kg 191-1.60x1019C
An atom of gold has 79 protons in its nucleus. Using a purely classical calculation, the innermost electron is found to orbit the nucleus at a distance of 7.8 × 10-13 m. The fundamental charge is 1.6 × 10-19 C, and the mass of the electron is 9.1 × 10-31 kg. For more insight into this situation, see https://www.fourmilab.ch/documents/golden_glow/ a. Using this radius, calculate the electrostatic force between that electron and the nucleus. b. Using that force, calculate the centripetal...
Sorry this problem has so many parts--thank you in advance for your effort. Which Force Is Stronger-Electrical or Gravitational? Let's peek into the hydrogen atom and compare the gravitational force on the electron due to interaction of its mass with that of the proton to the electrical force between the two particles as a result of their charges. In order to do the calcula- tion, you'll need to use some well-known values: Electron: me-9.1 × 10-31 Kg qe =-1.6 ×...
could you help me solve this problem Determine the ionization energy of hydrogen. Assume a circular orbit of the electron around the proton at the Bohr radius a0. Also, according to the virial theorem. KE = -(PE)/2. (e = 1.60 times 10-19C, a0 = 0.529 times l0-10'm., m, = -9.11 times 10-31 kg, mp= 1.67 times 10-27 kg)