Find the strength (magnitude) of the magnetic force on a proton immersed in the Earth’s magnetic field (B=6x10-5T) and travelling perpendicular to the direction of the magnetic field at 2x106m/s.

Find the strength (magnitude) of the magnetic force on a proton immersed in the Earth’s magnetic...
A proton in the Solar wind strikes the Earth’s magnetic field at a right angle with a velocity of 2.75 x 105m/s. If the field has strength of 4.33 x 10-5T and the Lorentz force acts to move the proton in a circle, what’s the radius of this circle? A) 0.0589m B) 6.08 x 1019m C) 2.64 x 10-10m D) 66.3m
A cosmic-ray proton moves at 2.8 × 107 m/s perpendicular to Earth’s magnetic field at an altitude where the field strength is 1.75 × 10−5 T. What is the radius of the circular path the proton follows? Draw a diagram to explain your answer.
#2 near the ground at the north magnetic pole, the earth’s magnetic field is directed downward vertically and has a strength of 0.57 G. An electron at the north pole is projected from the ground into this magnetic field with a velocity of 1.4 km/s vertically upward and 1.9 km/s horizontally to your right. A) find the magnitude of the force acting on this electron B) find the electron’s acceleration (magnitude and direction)
In Sydney, Australia the Earth’s magnetic field has a magnitude of 52 uT and points due north, inclined at an angle of 65 degrees above the horizontal. (a) Find the force (magnitude and direction) on 2.0 uC charge moving at 4.0 x 10^6 m/s horizontally due south. (b) Find the force (magnitude and direction) on 2.0 uC charge moving at 4.0 x 10^6 m/s horizontally due west.
A 141 turn circular coil of radius 2.61 cm is immersed in a
uniform magnetic field that is perpendicular to the plane of the
coil. Over an interval of 0.177 s , the magnetic field strength
increases from 53.1 mT to 96.9 mT . Find the magnitude of the
average emf avg induced in the coil during this time interval, in
millivolts.
A 141 turn circular coil of radius 2.61 cm is immersed in a uniform magnetic field that is...
A proton moves at a speed of 1155 m/s in a direction perpendicular to a magnetic field with a magnitude of 0.71 T. What is the magnitude of the magnetic force on the proton?
When at rest, a proton experiences a net electromagnetic force of magnitude 8.6×10−13 N pointing in the positive x direction. When the proton moves with a speed of 1.6×106 m/s in the positive y direction, the net electromagnetic force on it decreases in magnitude to 7.3×10−13 N , still pointing in the positive x direction. A. Find the magnitude of the electric field. B. Find the direction of the electric field. C. Find the magnitude of the magnetic field. D....
A 133 turn circular coil of radius 2.07 cm is immersed in a uniform magnetic field that is perpendicular to the plane of the coil. Over an interval of 0.193 s, the magnetic field strength increases from 54.1 mT to 94.5 mT. Find the magnitude of the average emf Eavg induced in the coil during this time interval, in millivolts. Eavg = ??? mV What is the direction of the current if the axial component of the field points away...
Find magnitude of force created by a 0.08 T magnetic field on a proton with speed of 200,000 m/sec when it makes angle of 30 degrees with magnetic field?
Find the direction of the magnetic field B acting on a moving proton shown in the figure below if the direction of the magnetic force acting on it is as indicated. Assume that the magnetic field B acting on this proton is perpendicular to the velocity of this proton at the moment depicted in this figure. (As a standard convention, the symbol denotes a vector pointing into the page, and the symbol o denotes a vector pointing out of the...