5. Consider a Hydrogen atom with radius R = 5.29x10m. current loop. If Treat the orbiting...
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
Consider a hydrogen atom with radius R=5.29×10^-11 m. Treat the orbiting electron as a current loop. If 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?
Consider a hydrogen atom with radius R=5.29×10^-11 m. Treat the orbiting electron as a current loop. If 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?
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)
Consider a hydrogen atom modeled as a stationary proton with an electron orbiting in uniform circular motion. The radius of the orbit is a value given the name Bohr radius (you will have to look up this value). Calculate the total energy required to ionize the hydrogen atom.
A flat circular loop of wire of radius R carrying a current I is placed in a uniform magnetic field B that is directed in the plane of the current loop. What is the magnetic moment M of the loop? What is the magnitude of the torque acting on the loop? In which direction the loop will rotate under the influence of this torque?
Question 1: Consider the following situation: For the hydrogen atom in its ground state pictured on the right, classically orbiting at the Bohr Radius 20 = 5.29 + 10-11m, calculate: a) The speed the electron is traveling at. b) The angular momentum 1 =7 x 5 of the electron. Compare it to = 1.055 10-34J.s. c) The magnetic field due to the electron at the position of the proton. Is it into the page or out of the page? on-...
Considering hydrogen atom as a electron (mass Me and charge -e) circulates at a proton ( mass Mp and charge +e) doing a circular motion with radius r, therefore the total energy of electron=_____, and the magnetic field of circular motion by electron that acts on the proton=______.
Find the magnetic field at the centre of a circular loop of radius R, which carries a steady current I. Use your result to calculate the magnetic field that the electron produces at the position of the nucleus in a hydrogen atom with the smallest Bohr orbit radius 0.529 Angstroms. Pretend the motion of the electron is classical.
An electron is moving in a circular orbit of radius 12 cm in a uniform 0.30 T magnetic field perpendicular to the velocity of the electron. What is the linear speed of the electron in units of m/s? (me=9.11x10-31 kg, qe=1.6x10-19 C) Lütfen birini seçin: a. 3.16x1011 b. 3.16x109 c. 3.16x1010 d. 6.32x109 e. 6.32x1010