Find the radius of a proton's orbit when it moves perpendicular to a magnetic field of...
Find the radius of a proton's orbit when it moves perpendicular to a magnetic field of 0.50 T with a speed of 6.25×105 m/s .
Find the radius of a proton's orbit when it moves perpendicular to a magnetic field of 0.66 T with a speed of 6.45×105 m/s
Find the radius of a proton's orbit when it moves perpendicular to a magnetic field of 0.66 T with a speed of 6.48×105 m/s . A wire with a current of 2.8 A is at an angle of 36.0 ∘ relative to a magnetic field of 0.85 T . Find the force exerted on a 2.35 −m length of the wire.
A proton moves in a circle with a speed of 430 m/s through a uniform magnetic field of 2.0 T directed perpendicular to the circular path. 1) What is the orbital radius of the proton? (Express your answer using two significant figures.) (units in micro m)
The aurora is caused when electrons and protons, moving in the earth's magnetic field of ≈5×10−5 T, collide with molecules of the atmosphere and cause them to glow. What is the radius of the circular orbit for (a) an electron with speed 1.0×106 m/s and (b) a proton with speed 7.0×104 m/s . Part A Express your answer using two significant figures.
An electron of kinetic energy 26.0 keV moves in a circular orbit perpendicular to a magnetic field of 0.395 T. Find the radius of the orbit. Find the period of the motion.
An electron of kinetic energy 36.0 keV moves in a circular orbit perpendicular to a magnetic field of 0.350 T. Find the radius of the orbit. Find the period of the motion.
What is the value of e/m for a particle that moves in a circle of radius 13 mm in a 0.82-T magnetic field if a perpendicular 630-V/m electric field will make the path straight? Express your answer using two significant figures
An electron of kinetic energy 4.5 keV moves in a circular orbit perpendicular to a magnetic field of 0.315 T. (a) Find the radius of the orbit. ___mm (b) Find the frequency of the motion. ___GHz (c) Find the period. ___ns
An electron of kinetic energy 13.0 keV moves in a circular orbit perpendicular to a magnetic field of 0.360 T. Find the radius of the orbit. Tries 0/6 Problem 26-32b: Find the period of the motion.