i need question d,e and the magnitude of the final velocity please. 5.00 x 10–6kg carrying positive charge Q = 30.0 µC is placed in2000 N/C pointing in +x-direction and given initial velocityA small bead of mass m =the electric field of magnitude EVz = -25.0 m/s. The bead travels through a displacement Ax = -0.020 m.a) Represent the question graphically and indicate the direction of the acceleration on the bead dueto the electric force acting on it.b) Determine the initial kinetic energy of the bead.c) Determine the change in the bead's potential energyd) Determine the final kinetic energy of the bead.e) Determine the final velocity (magnitude and direction) of the bead.Enter the magnitude of final velocity below. Provide your answer in meters per second, rounded tothe nearest integer.

Given, m=5.00×10-6kgQ=30.0 μCE=2000 N/Cvx=-25.0 m/s∆x=-0.020 m

A small bead of mass m= 5.00 × 10-º kg carrying positive charge Q = 30.0 µC is placed in the electric field of magnitude E = 2000 N/C pointing in +x-direction and given initial velocity Vz = -25.0 m/s. The bead travels through a displacement Aæ = -0.020 m. a) Represent the question graphically and indicate the direction of the acceleration on the bead du to the electric force acting on it. b) Determine the initial kinetic energy of the bead. c) Determine the change in the bead's potential energy d) Determine the final kinetic energy of the bead. e) Determine the final velocity (magnitude and direction) of the bead. Enter the magnitude of final velocity below. Provide your answer in meters per second, rounded to the nearest integer.

A small bead of mass m= 5.00 × 10-º kg carrying positive charge Q = 30.0 µC is placed in the electric field of magnitude E = 2000 N/C pointing in +x-direction and given initial velocity Vz = -25.0 m/s. The bead travels through a displacement Aæ = -0.020 m. a) Represent the question graphically and indicate the direction of the acceleration on the bead du to the electric force acting on it. b) Determine the initial kinetic energy of the bead. c) Determine the change in the bead's potential energy d) Determine the final kinetic energy of the bead. e) Determine the final velocity (magnitude and direction) of the bead. Enter the magnitude of final velocity below. Provide your answer in meters per second, rounded to the nearest integer.

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Question

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i need question d,e and the magnitude of the final velocity please.

5.00 x 10–6
kg carrying positive charge Q = 30.0 µC is placed in
2000 N/C pointing in +x-direction and given initial velocity
A small bead of mass m =
the electric field of magnitude E
Vz = -25.0 m/s. The bead travels through a displacement Ax = -0.020 m.
a) Represent the question graphically and indicate the direction of the acceleration on the bead due
to the electric force acting on it.
b) Determine the initial kinetic energy of the bead.
c) Determine the change in the bead's potential energy
d) Determine the final kinetic energy of the bead.
e) Determine the final velocity (magnitude and direction) of the bead.
Enter the magnitude of final velocity below. Provide your answer in meters per second, rounded to
the nearest integer.

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