NUMERICAL RESPONSE 2 Calculate the attractive force between a particle with a charge of +3.6 X 10-12 C and a particle with a charge of -7.6 X 10-¹8 C, if they are 6.9 X 108 m apart. B x 10 CN . tomb (Record your answer (three digits) in the numerical-response box)

Numerical 2

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Part One: Multiple Choice and Numerical Response generated by a parti 1. The formula below will help to solve for the electric This will decrease as the distance a. Force; increases b. Field; increases c. Force; decreases d. Field; decreases k qi |= 2 r NUMERICAL RESPONSE Station:a majo? At one point in its orbit, a space station is 6.78 × 106 m from Earth's center. At this position, the gravitational field strength of Earth on the space station is N/kg. (Record your answer to three digits in the numerical-response. Include a decimal if required.) 2. Gravitational, Electrical and Magnetic Fields all attract and repel b. all attract, but only two can repel c. all repel, but only two can attract d. only repel NUMERICAL RESPONSE Calculate the attractive force between a particle with a charge of +3.6 X 10-12 C and a particle with a charge of -7.6 X 10-18 C, if they are 6.9 X 108 m apart. A B x 10- CN comb (Record your answer (three digits) in the numerical-response box) 3. Electricity is generated at a coal generated electrical plant along the North Saskatchewan River. The electricity must then be transferred to homes throughout the Edmonton area. This transfer, over a long distance, is accomplished by using current and a step-up voltage and a amperage (current). transformer that creates a A. dc; high; low B. dc; low; high C. ac; high; low D. ac; low; high GO