Suppose a van de Graaff generator builds a negative static charge, and a grounded conductor is...
Suppose a van de Graaff generator builds a negative static charge, and a grounded conductor is placed near enough to it so that a of negative charge arcs to the conductor. Calculate the number of electrons that are transferred.
Homework Answers
Let q be the charge to the conductor. (Look up in your question as it is not mentioned here.)
Charge on one electron = 1.6*10^-19C
So, no. of electron n = q/(1.6*10^-19)
For example, if q = 9uC = 9*10^-6 C, then
n = (9*10^-6)/(1.6*10^-19)
= 5.63*10^13
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Suppose a van de Graaff generator builds a negative static
charge, and a grounded conductor is...
Suppose van de graaff generator builds a negative static charge, and a grounded conductor is placed...
Suppose van de graaff generator builds a negative static charge, and a grounded conductor is placed near enough to it so that a 7.0x10^-6C of a negative charge arcs to the conductor. Estimate the number of electrons involved.
Suppose a van de Graaff generator builds a negative staticcharge, and a grounded conductor is placed...
Suppose a van de Graaff generator builds a negative
staticcharge, and a grounded conductor is placed near enough to it
sothat a 7μC of negative charge arcs to the conductor.Estimate the
number of electrons involved.
4.38 × 1013
112
7 × 1020
1
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Suppose a van de Graaff generator builds a negative
staticcharge, and a grounded conductor is placed near enough to it
sothat a 7μC of negative charge arcs to the conductor.Estimate the
number of electrons involved.
4.38 × 1013
112
7 × 1020
1
A research Van de Graaff generator has a 3.60 m diameter metal sphere with a charge of 1.02 mC on it (a) What is the electric potential on the surface of the sphere? (b) At what distance from its center is the potential 4.00 MV? m (c) An oxygen atom with three missing electrons is released near the surface of the Van de Graaff generator. What is its kinetic energy in Mev at the distance determined in part (b)? MeV
The collector sphere, or dome, of a Van de Graaff generator builds a net charge of 4.5 x 10-3 C. Determine the magnitude of the electric field at various locations. Hint: Review the properties of conductors in electrostatic equilibrium and use Gauss's law. Assume a spherically symmetric distribution of charge on the collector sphere. a. Determine the magnitude of the electric field inside of the collector sphere. E = N/C b. Determine the magnitude of the electric field at the...
9) At the science museum, they have a giant Van-de-Graaff generator. When operating, the large metal ball is charged with positive charge. If you place the top electrode of an electroscope NEAR (but not touching) the Van-de-Graff generator, the gold-leaves spring apart. Why?
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