Assuming that the average distance between the electron and the proton in a hydrogen atom is 1.0 angstrom, what is the average force exerted by the proton on the electron?
Assuming that the average distance between the electron and the proton in a hydrogen atom is...
A hydrogen atom is at the earth’s surface. The electron and proton in the atom are separated by a distance of 5.29×10?11m. What is the ratio of the magnitude of the electric force exerted by the proton on the electron to the weight of the electron? r-529 x1σ11 m Mp= 1.67×10 -27 kg /n-911 × 10-31 kg
The average distance of the electron from the proton in the hydrogen atom is 0.65 × 10 −10 m. What is the electric field from the proton’s charge at the location of the electron? ( ke = 8.99 × 10 9 N ⋅m 2/C 2, e = 1.6 × 10 −19 C)
Determine the magnitude and direction of the electric force on the electron of a hydrogen atom exerted by the single proton that is the atom’s nucleus. Assume the average distance between the revolving electron and a proton is r= 0.53×10^-10m.
Also in the hydrogen atom, what is the force exerted by the electron on the proton? If you get the same magnitude for the force as in question 1, could you then conclude (by Newton’s Second Law) that the proton and electron experience the same (centripetal) acceleration magnitude? Why or why not
Question 3: In a hydrogen atom, the electron is at a distance of 5 x 10-11 m from the nucleus, which consists of a proton. Find the force between the electron and the proton.
1. In the Bohr model of the hydrogen atom, a single electron orbits a single proton at a distance r-0.50 x 10-10 meters as shown. a) b Assuming the Coulomb force supplies the necessary centripetal force, find the Find the value of the attractive Coulomb force exerted on the electron. electron's speed v in its orbit about the nucleus. Can a charged object exert forces on an uncharged object? If so, will this force be attractive, repulsive, or is either...
The electron and the proton in a hydrogen atom are about 10−10m from each other. Determine the magnitude of the electric force exerted on an electron.
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...
25. What is the potential 0.530 x 10-40 m from a proton (the average distance between the proton and electron in a hydrogen atom)?
In a simplistic model of the hydrogen atom, the electron orbits the proton in a circle of radius 53 pm. What is the orbital period of the electron, in seconds, if the force responsible for the proton-electron attraction is electric?