We have three charges, Q1, Q2, and Q3, arranged in a straight line. Q2 is 0.41 m to the right of Q1. Q3 is 0.13 m to the right of Q2. Assume that the charges have the following sizes: Q1=1 μC, Q2=−3 μC, Q3=3.9 μC. Calculate the total force on Q2. If the net force is to the left, enter it as a negative number. Otherwise, enter it as a positive number. ow we're going to change things a bit. The charges still have the same sizes and signs (Q1=1 μC, Q2=−3 μC, Q3=3.9 μC). Q2 is still 0.41 m to the right of Q1. But now we're free to put Q3 anywhere. Find the location at which Q3 will feel zero net force. Write your answer as the distance Q3 is from Q1 with a negative sign if Q3 is to the left of Q1, and a plus sign otherwise.
We have three charges, Q1, Q2, and Q3, arranged in a straight line. Q2 is 0.41 m to the right of Q1. Q3 is 0.13 m to the right of Q2. Assume that the charges have the following sizes: Q1=1 μC, Q2=−3 μC, Q3=3.9 μC. Calculate the total force on Q2. If the net force is to the left, enter it as a negative number. Otherwise, enter it as a positive number.
ow we're going to change things a bit. The charges still have the same sizes and signs (Q1=1 μC, Q2=−3 μC, Q3=3.9 μC). Q2 is still 0.41 m to the right of Q1. But now we're free to put Q3 anywhere. Find the location at which Q3 will feel zero net force. Write your answer as the distance Q3 is from Q1 with a negative sign if Q3 is to the left of Q1, and a plus sign otherwise.
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