Find through what potential difference did the charge move

Reference no: EM13556713

A uniform electric field of magnitude 339 N/C is directed along the +y-axis. A 5.00 µC charge moves from the origin to the point (x, y) = (-5 cm, -31 cm).

(a) What is the change in the potential energy associated with this charge?

(b) Through what potential difference did the charge move?

Reference no: EM13556713

Questions Cloud

Determine what is the value of the damping constant : A 500g mass on a string oscillates as a pendulum. The pendulum's energy decays to 50% of its initial value in 30s. What is the value of the damping constant

Explain how do entropies change in the body of the athlete : A 150-lb male athlete is running on a treadmill machine at a speed of 10 mi/hr in a thermally insulated room. How do entropies change in the body of the athlete and in the room

Estimate to what height will it rise : At the Earth's surface, a projectile is launched straight up at a speed of 10.3 km/s. To what height will it rise

Determine what is the flux through the cube : Two infinite lines of charge lie in the x-y-plane, parallel to the y-axis. Line 1 has linear charge density ?1 = 4.2 ?C/m and passes through x = -3.5 cm. What is the flux through the cube

Find through what potential difference did the charge move : A uniform electric field of magnitude 339 N/C is directed along the +y-axis. find Through what potential difference did the charge move

Evaluate the diffusion coefficient : Glycerine in water diffuses along a horizontal column that has a cross-sectional area of 1.9 cm2. The concentration gradient is 3.2 10-2 kg/m4, Determine the diffusion coefficient

Evaluate the surface tension of the fluid : A certain fluid has a density of 1110 kg/m3 and is observed to rise to a height of 2.5 cm in a 1.0-mm-diameter tube. Calculate the surface tension of the fluid

Evaluate the electric field intensity : Two 3.0 g spheres are suspended by 9.0 cm long light strings, determine the electric field intensity that enables the spheres to be in equilibrium at ? = 11°

Estimate how much weight will the athlete lose : A 150-lb male athlete is running on a treadmill machine at a speed of 10 mi/hr in a thermally insulated room. (10%) After one hour, how much weight will the athlete lose

User Account

All Pages