7. An object with a charge of 4.0x10C creates an electric field. A test charge of +1.0x10 c experiences a force of 0.10 N. The electric field strength is

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7. An object with a charge of 4.0x10C creates an electric field. A test charge
of +1.0x10 c experiences a force of 0.10 N. The electric field strength is
8. An object with a charge of Q creates an electric field. A positive test charge,
q, is used to test the strength of the field. Use this scenario to answer the
following questions:
2 a. If the charge of the test charge q is doubled, then it will experience (2X,
4X, 1/2, 1/4-th, the same) force; the electric field strength at this location will
be (2x, 4X, 1/2, 1/4-th, the same as) the original value.
b. If the charge of the object Q is doubled, then the test charge will experience
(2X, 4X, 1/2, 1/4-th, the same) force; the electric field strength at this location
will be (2X, 4X, 1/2, 1/4-th, the same as) the original value.
c. If the distance between the charge and the test charge is doubled, then the
test charge will experience (2x, 4X, 1/2, 1/4-th, the same) force; the electric
field strength at this location will be (2X, 4X, 1/2, 1/4-th, the same as the
original value.
Transcribed Image Text:7. An object with a charge of 4.0x10C creates an electric field. A test charge of +1.0x10 c experiences a force of 0.10 N. The electric field strength is 8. An object with a charge of Q creates an electric field. A positive test charge, q, is used to test the strength of the field. Use this scenario to answer the following questions: 2 a. If the charge of the test charge q is doubled, then it will experience (2X, 4X, 1/2, 1/4-th, the same) force; the electric field strength at this location will be (2x, 4X, 1/2, 1/4-th, the same as) the original value. b. If the charge of the object Q is doubled, then the test charge will experience (2X, 4X, 1/2, 1/4-th, the same) force; the electric field strength at this location will be (2X, 4X, 1/2, 1/4-th, the same as) the original value. c. If the distance between the charge and the test charge is doubled, then the test charge will experience (2x, 4X, 1/2, 1/4-th, the same) force; the electric field strength at this location will be (2X, 4X, 1/2, 1/4-th, the same as the original value.
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