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Please read the attachment. My question is for Q10 and Q11 but need help with understanding Q5-Q9 and making sure I was correct. Thank you

Please read the attachment. My question is for Q10 and Q11 but need help with understanding Q5-Q9 and making sure I was correct. Thank you

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Using the graph that's attached, I was able to answer Q5- Q9. I'm not understanding this activity and not sure if my answers are correct. I'm needing some help with Q10 and Q11. 0.8 deg -0.4 deg 9.04 V/m 2.24 W/m Q5. Which way does the electric field E point, from A to B or B to A? _B to A + Q6. Thus, can you deduce whether E points in the direction of increasing or decreasing potential? (Highlight one) Q7. Considering the above, where would, a proton have more electric potential energy, at point A or B? Point B an electron have more electric potential energy, at point A or B? Point A Q8. Now suppose we place a small positive charge, +q, at point "A". What is the sign of the work done by the electric field if the charge is moved from A to B? Is WA- positive, negative, or zero? (Highlight one) Q9. Is VB - VA positive, negative, or zero? (Highlight one) Use the results from your computer + O simulation. Q10. Refer back to your signs in Q8 and Q9 as you fill out the following: +1 nC -1 nc Sensors 1 meter The sign of WA _ is (Q8) The sign of q is (Q8); the sign of VB - VA is (Q9) Is the sign of W. the same as the sign of -9(VB - VA)? Q11. Determine the work done by the electric field of a 6 V battery on an electron traveling in a wire from the negative 0 V terminal to the positive 6 V terminal. Show your work below, paying close attention to the signs. (Note: 1 V = 1J/ C). using WA- =-9(VB - VA)

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