A charged particle with charge q and unknown velocity v experiences a force F in a...

A moving proton experiences force from a magnetic field. true or false If the charged particle...

A moving proton experiences force from a magnetic field. true or false If the charged particle experiences a downward force (towards the bottom of the screen), what is the sign of the charge? true or false If there were an electric field pointing into the computer screen instead of a magnetic field, what would be the direction of force on the charge?

A particle with positive charge q = 2.56 10-18 C moves with a velocity v with...

A particle with positive charge q = 2.56 10-18 C moves with a velocity v with arrow = (3î + 5? ? k) m/s through a region where both a uniform magnetic field and a uniform electric field exist. (a) Calculate the total force on the moving particle, taking B with arrow = (3î + 5? + k) T and E with arrow = (2î ? ? ? 5k) V/m. Fx = N Fy = N Fz = N (b)...

A particle with positive charge q = 4.49 10-18 C moves with a velocity v =...

A particle with positive charge q = 4.49 10-18 C moves with a velocity v = (3î + 5ĵ − k) m/s through a region where both a uniform magnetic field and a uniform electric field exist. (a) Calculate the total force on the moving particle, taking B = (5î + 2ĵ + k) T and E = (5î − ĵ − 2k) V/m. (Give your answers in N for each component.) Fx = N Fy = N Fz =...

A particle that has an 8.1-μC charge moves with a velocity of magnitude 3 × 105...

A particle that has an 8.1-μC charge moves with a velocity of magnitude 3 × 105 m/s along the +x axis. It experiences no magnetic force, although there is a magnetic field present. The maximum possible magnetic force that the charge with the given speed could experience has a magnitude of 0.470 N. Find the magnitude and direction of the magnetic field. Note that there are two possible answers for the direction of the field. I seem to be getting...

A particle that has an 8.9-µC charge moves with a velocity of magnitude 3.0 105 m/s...

A particle that has an 8.9-µC charge moves with a velocity of magnitude 3.0 105 m/s along the +x axis. It experiences no magnetic force, although there is a magnetic field present. The maximum possible magnetic force that the charge with the given speed could experience has a magnitude of 0.43 N. Find the magnitude and direction of the magnetic field. Note that there are two possible answers for the direction of the field.

a. Explain with a neat diagram the Magnetic Force on a charged particle moving with a...

a. Explain with a neat diagram the Magnetic Force on a charged particle moving with a constant velocity due to a uniform magnetic field. b. Derive the cyclotron frequency of a moving charged particle in a uniform magnetic field.

A point charge q is moving in uniform electric field (E0 in the z-direction) and uniform...

A point charge q is moving in uniform electric field (E0 in the z-direction) and uniform magnetic field (B0 field in the x-direction). (i) What is the force acting on the charge particle? Find equations of motion for the charge particle. (ii) Assume that initially the charge is placed the origin and has initial velocity (E0/2B0) in the y-direction. Determine position and velocity of the charge particle as a function of time. (iii) Find the trajectory of the particle and...

A negative charge of q = -3.1 × 10-17C and m = 4.7 × 10-26 kg...

A negative charge of q = -3.1 × 10-17C and m = 4.7 × 10-26 kg enters a magnetic field B = 0.55 T with initial velocity v = 230 m/s, as shown in the figure. The magnetic field points into the screen. q = -3.1 × 10-17C m = 4.7 × 10-26 kg B = 0.55 T v = 230 m/s   13% Part (a) Which direction will the magnetic force be on the charge?   13% Part (b) Express the...

A charged particle of mass m = 4.6X10-8 kg, moving with constant velocity in the y-direction...

A charged particle of mass m = 4.6X10-8 kg, moving with constant velocity in the y-direction enters a region containing a constant magnetic field B = 2.3T aligned with the positive z-axis as shown. The particle enters the region at (x,y) = (0.79 m, 0) and leaves the region at (x,y) = 0, 0.79 m a time t = 409 μs after it entered the region. 1. With what speed v did the particle enter the region containing the magnetic...

charged particle mass m charge q moves along horizontal surface with coefficient of kinetic friction μ....

charged particle mass m charge q moves along horizontal surface with coefficient of kinetic friction μ. magnetic field strength B applied such that magnetic force acts into the surface. If initial speed of particle is u show that time for the particle to stop is (m/(μqB))*ln(1+quB/(mg))