Answer:
The energy stored in the conductor is 5×10^-8 J.
Explanation:
let v be the potential of the conductor.
let Q be the charge on the conductor.
let k = 9×10^9 be the coulomb constant.
let r be the radius of the conductor.
then, the potential of the conductor is given by:
V = k×Q/r
Q = V×r/k
= [(100)×(9×10^-2)]/(9×10^9)
= 1×10^-9 C
then, the energy stored in the conductor is given by:
E = 1/2×Q×V
= 1/2×(1×10^-9)×(100)
= 5×10^-8 J
Therefore, the energy stored in the conductor is 5×10^-8 J.
I can't see the image, but since the forces remain equal and opposite (just of a different magnitude) the resultant force will still = 0. And since an object cannot accelerate without a resultant force, the rope will remain motionless.
i.e. Option D) The forces are balanced. Thus, there is no change in forces acting on the rope and the rope's motion is not affected
If you have a rough surface
Answer:
b
Explanation:
It will aplly equal force
Answer:
the right answer is The standard unit of measurement for acceleration is meters per second squared or m/s2.