A point charge Q=3.79 micro C moving with velocity (boldface denotes vectors): v= (19.0 i +11.7 j +15.2 k) m/s,enters a region of uniform magnetic field: B= (1663 i +1406 j +1108 k) T. Right after entering the field region:
What is the x-component of the magnetic force exerted on Q?
A point charge Q=3.79 micro C moving with velocity (boldface denotes vectors): v= (19.0 i +11.7...
i+j+k A charge q moving with speed v enters a region of constant magnetic field given by B-B The unit vector in the i-23+3 direction of the velocity vector is given by n- If an electric feld E is applied such that the charge experiences zero resultant force while it is moving through the electric magnetic fields, then the unit vector in the direction of the electric field is B)-(4부) i+j+k i-2j+k
The force on a charged particle moving in a magnetic field can be computed as the vector sum of the forces due to each separate component of the magnetic field. As an example, a particle with charge q is moving with speed v in the? y-direction. It is moving in a uniform magnetic field Part A What is the x-component of the force F? exerted on the particle by the magnetic field? Part B What is the y-component of the force...
1)A particle of charge = +9 nC and mass = 5 micro-gram) moves with a velocity V = 3.1 i km/s in a region where the magnetic field is B = 8.9 i + 7.1 j mT. What is the magnitude of the force on the particle due to the magnetic field? Write your answer in nano-newtons. 2)A particle of charge = +1.1 nC and mass = 9 micro-gram) moves with a velocity V = 2.4 i km/s in a...
5.A particle of charge +2.00 x 103 C is moving with velocity v (1000 m/s)j through a uniform magnetic field. The magnetic force on the particle is F = (4.00 N)i-(6.00 N)k. What is B, the z component of the magnetic field (in T)? (A) 1.00 (B) 1.50 (C) 4.00 (D) 2.00 (E) 3.00 (F) 5.00
4. Uniformly moving point charge A point charge q is in uniform motion with velocity v = vzˆ, where v is a constant. At time t = 0 the charge is located at the origin. At a later time t 0 , at the field point x = x0, y = z = 0: (a) Find the scalar and vector potential. (b) What coordinate components does the electric field have? (c) What coordinate components does the magnetic field have? (d)...
A particle with a charge of q = -5.60 nC is moving in a uniform magnetic field of B⃗ =( -1.23 T ) k^. The magnetic force on the particle is measured to be F⃗ =( −7.60×10−7 N )j^. Part B Calculate vx, the x component of the velocity of the particle. Express your answer in meters per second. m/s
An electron moving with a velocity v = 6.50x107m/s i enters a region of space where the electric field and magnetic fields are perpendicular to each other. The electric field is E = 2.10x104 V/m j. Part A - Find the magnetic field for which the electron would pass undeflected through the region. 3.23x10-4 T Ê 6.46x10-4 T k -6.46x10-4 T Â -3.23x10-4 T î 3.23x10-4 T î
A particle with a charge of ?1.24×10?8C is moving with instantaneous velocity v? = (4.19×104m/s)i^ + (?3.85×104m/s)j^ .What is the force exerted on this particle by a magnetic field B? = (2.70 T ) i^? Enter the x, y, and z components of the force separated by commas.What is the force exerted on this particle by a magnetic field B? = (2.70 T ) k^? Enter the x, y, and z components of the force separated by commas.
A particle with positive charge q = 1.12 10-18 C moves with a velocity v with arrow = (5î + 2ĵ − 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 = (5î + 2ĵ + k) T and E with arrow = (2î − ĵ − 4k) V/m. (b) What angle does the force vector make with the...
A positive charge is moving with velocity v through a region of space where a uniform magnetic field exists everywhere into the screen, as the figure shows. What is the direction of the magnetic force on the charge just as it enters the field? B (into the screen) ㄨㄨㄨㄨㄨ ㄨㄨㄨㄨㄨ ㄨㄨㄨㄨㄨ Out of the screen Downward Right Upward