Solve the following: 1. How many nanocoulomb are there in 3.65 billion electrons ? 2. A 25 ampere electric current flows in a conductor in 75 millisecond. Find : a. current equivalent in mA? b. How many charges are transferred ? c. How much work is required to transfer if 3V is applied. 3. A charge of 3.5 μC present in an electric field produces a force of 0.008 Newton. What is the intensity of the electric field?
Solve the following: 1. How many nanocoulomb are there in 3.65 billion electrons ? 2. A 25 ampere electric current flows in a conductor in 75 millisecond. Find : a. current equivalent in mA? b. How many charges are transferred ? c. How much work is required to transfer if 3V is applied. 3. A charge of 3.5 μC present in an electric field produces a force of 0.008 Newton. What is the intensity of the electric field?
College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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Transcribed Image Text:Solve the following:
1. How many nanocoulomb are there in 3.65 billion electrons ?
2. A 25 ampere electric current flows in a conductor in 75 millisecond. Find:
a. current equivalent in mA?
b. How many charges are transferred ?
c. How much work is required to transfer if 3V is applied.
3. A charge of 3.5 µC present in an electric field produces a force of 0.008 Newton. What is the intensity
of the electric field ?
4. A charge of 0.6 µC is placed in an electrostatic field whose intensity is 3 x 105 N/C. How strong is the
force acting on the charge ?
5. Two objects are both negatively charge with 0.04 coulomb each and 140 cm apart. What kind of force exist
Between charges? How much?
6. Find the force that exist between two charges of 8.53 μC and 4.5 µC that 0.25 meters in air?
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VIEWStep 2: Converting from billion electron into nanocoloumb
VIEWStep 3: Converting Ampere into milliampere and using formula to find number of tranfer charges
VIEWStep 4: Using formula to find required work and then also find electric field intensity
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