A highly charged piece of metal (with uniform potential throughout) tends to spark at places where the radius of curvature is sm

all, or at places where there are sharp points. The breakdown electric field strength for air is about 3 106 V/m. (a) It is possible to calculate the maximum possible potential (relative to infinity) in air of a metal sphere of 18 cm radius. First, what is the maximum charge you can put on this sphere? C For that amount of charge, what is the potential of the sphere relative to infinity? volts (b) Next, calculate the maximum possible potential relative to infinity in air of a metal sphere of only 0.4 mm radius. What is the maximum charge you can put on this sphere? C For that amount of charge, what is the potential of the sphere relative to infinity? volts These results are related to the fact that if a piece of metal has a small radius of curvature, it will spark at relatively low potential relative to infinity.

Physics

You might be interested in

A sprinter accelerates from rest to a velocity of 12m/s in the first 6 seconds of the 100 meter dash .

ValentinkaMS [3465]

a) 36 m b) 64 m. Explanation: Given parameters are: initial velocity (v₀) = 0 m/s, final velocity (v) = 12 m/s, time (t) = 6 s. With the equation Δx = ½ (v + v₀) t, we find Δx to be 36 m. Since the track is 100 m, the sprinter must cover an additional 64 m.

5 0

2 months ago

Two projectiles are launched with the same initial speed from the same location, one at a 30° angle and the other at a 60° angle

Ostrovityanka [3204]

Answer:

Explanation:

Let us denote the launch angle as $\theta _1=30^{\circ}$ .