Same situation, but this time the charge density in the sheet is 1.55 x 10^-6 C. Suppose your mass (including the suit) is 71.5 kg. How much charge must you give the suit if you want to be able to just hover stationary above the charged sheet?Question 7 options: 1.44E-02 C 8.01E-03 C 6.41E-03 C 1.04E-02 CQuestion 8 (5 points) SavedSame situation, but this time the charge density in the sheet is 2.98 x 10^-6 C. Suppose your mass (including the suit) is 81.6 kg. How much charge must you give the suit if you want to fall up , that is, accelerate upward at the same rate that objects normally accelerate downward due to Earth s gravity?Question 8 options: 5.72E-03 C 1.43E-02 C 1.52E-02 C 9.51E-03CQuestion 9 (5 points) SavedThis time the sheet has charge density 9.91 x 10^-6 C, and your mass including the suit is 70.3 kg. How much charge must you give the suit if you want to fall down toward the sheet, but at the same rate as if you were on the Moon (remembering that the gravitational acceleration on the Moon is 1/6 what it is on Earth)?Question 9 options: 1.96E-03 C 1.03E-03 C 1.34E-03 C 1.55E-03 CQuestion 10 (5 points) SavedSuppose you were hovering stationary as in question 6 above, except now with sheet charge density 6.20 x 10^-6 C and your mass including the suit 68.9 kg. Suppose that while you were hovering, someone threw you a rock of mass 7.7 kg, and that you caught it. What would now be your rate of acceleration toward the ground?Question 10 options: 9.81 m/s^2 8.82 m/s^2 1.49 m/s^2 0.99 m/s^2
Same situation, but this time the charge density in the sheet is 1.55 x 10^-6 C. Suppose your mass (including the suit) is 71.5 kg. How much charge must you give the suit if you want to be able to just hover stationary above the charged sheet?
Question 7 options:
1.44E-02 C
8.01E-03 C
6.41E-03 C
1.04E-02 C
Question 8 (5 points)
Saved
Same situation, but this time the charge density in the sheet is 2.98 x 10^-6 C. Suppose your mass (including the suit) is 81.6 kg. How much charge must you give the suit if you want to fall up , that is, accelerate upward at the same rate that objects normally accelerate downward due to Earth s gravity?
Question 8 options:
5.72E-03 C
1.43E-02 C
1.52E-02 C
9.51E-03C
Question 9 (5 points)
Saved
This time the sheet has charge density 9.91 x 10^-6 C, and your mass including the suit is 70.3 kg. How much charge must you give the suit if you want to fall down toward the sheet, but at the same rate as if you were on the Moon (remembering that the gravitational acceleration on the Moon is 1/6 what it is on Earth)?
Question 9 options:
1.96E-03 C
1.03E-03 C
1.34E-03 C
1.55E-03 C
Question 10 (5 points)
Saved
Suppose you were hovering stationary as in question 6 above, except now with sheet charge density 6.20 x 10^-6 C and your mass including the suit 68.9 kg. Suppose that while you were hovering, someone threw you a rock of mass 7.7 kg, and that you caught it. What would now be your rate of acceleration toward the ground?
Question 10 options:
9.81 m/s^2
8.82 m/s^2
1.49 m/s^2
0.99 m/s^2
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