As in the video, we apply a charge + Q to the half-shell that carries the electroscope. This time, we also apply a charge - Q to the other half-shell. When we bring the two halves together, we observe that the electroscope discharges, just as in the video. What does the electroscope needle do when you separate the two half-shells again? As in the video, we apply a charge + to the half-shell that carries the electroscope. This time, we also apply a charge - to the other half-shell. When we bring the two halves together, we observe that the electroscope discharges, just as in the video. What does the electroscope needle do when you separate the two half-shells again? It deflects more than it did at the end of the video. It does not deflect at all. It deflects the same amount as at end of the video. It deflects less than it did at the end of the video.
Answers (2)
Know the Answer?
Not Sure About the Answer?
Get an answer to your question ✅ “As in the video, we apply a charge + Q to the half-shell that carries the electroscope. This time, we also apply a charge - Q to the other ...” in 📙 Physics if there is no answer or all answers are wrong, use a search bar and try to find the answer among similar questions.
Search for Other Answers
You Might be Interested in
Which of the following is an extensive property? Select one: a. Density b. Temperature c. Mass d. Specific Heat e. Pressure
Answers (1)
Name each type of symbiosis and explain how the two species are affected
Answers (1)
The amount of charge that moves through the filament of a lightbulb in 2.00 s is 2.67 C. what is the current of the lightbulb?
Answers (1)
Daniel has a sample of pure copper its massive is 89.6 grams (g) and its volume is 10 cubic centimeters (cm3) what's the density of the sample
Answers (1)
You swing a bucket of water in a vertical circle of radius 1.4 m. What speed must the bucket have if it is to complete the circle without any water spilling?
Answers (1)
New Questions in Physics