Two plates separated by a distance d = 14.8 mm are charged to a potential difference V = 7.25 V. A constant force F = 7.81 N pushes a - 8.30 mC charge from the positively charged plate to the negatively charged plate. Calculate the change in the kinetic energy Δ K, potential energy Δ U, and total energy Δ E of the charge as it travels from one plate to the other. Assume the initial speed of the charge is 0.

change in Kinetic Energy Δ K = 55.388 mJ change in potential energy Δ U = 60.175 mJ total energy ΔE of the charge = 115.563 mJ

Explanation:

Part (a) change in Kinetic Energy Δ K

Δ K = Fd + q (Ed)

but Ed = V and

V is given as 7.25 V

d is given as 14.8 mm

F is given as 7.81 N

q is given as - 8.3 mC

Δ K = Fd + q (V)

Δ K = (7.81 * 14.8 X 10⁻³) - 8.3 X 10⁻³ * 7.25

Δ K = 0.055388 J = 55.388 mJ

Part (b) change in potential energy Δ U

ΔU = |q|*V

ΔU = 8.30 X 10⁻³ * 7.25

ΔU = 60.175 mJ

Part (c) total energy ΔE of the charge

ΔE = Δ K + ΔU

ΔE = 55.388 mJ + 60.175 mJ

ΔE = 115.563 mJ