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Two charges, Q1= 3.20 microCoulombs,

  1. Three charges are at the corners of a rectangle with side L1 = 0.04 m and L2 = 0.015 m as shown. If q1 = 1.3 microCoulombs, q2 =
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    2. Anonymous asked by Anonymous
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  2. Compute the electrical force between the following charges and state whether it is attractive or repulsive. Q1 = 3 microcoulombs
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    2. Anonymous asked by Anonymous
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  3. Two identical spheres, A and B, carry charges of +6 microcoulombs and -2 microcoulombs. If these spheres touch, what will be the
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    2. Priscilla asked by Priscilla
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  4. Two charges, Q1= 3.20 microCoulombs, and Q2=5.90 microCoulombs, are located at points (0,-2.00cm) and (0,+2.00cm.What is the
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    2. John asked by John
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  5. Two charges, Q1= 3.20 microCoulombs, and Q2=5.90 microCoulombs, are located at points (0,-2.00cm) and (0,+2.00cm.What is the
    1. answers icon 1 answer
    2. Mike asked by Mike
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  6. There are four charges, each with a magnitude of 2.65 microcoulombs. Two are positive and two are negative. The charges are
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    2. JJ asked by JJ
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  7. two charges, -16uC and +4uC, are separated by three meters.a) Where along the line through the charges is the electric field
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    2. Lola asked by Lola
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  8. The Superpostion Principle:Three point charges q1, q2 and q3 like along the x-axis at x=0, x=3.0cm and x=5.0cm, respectively.
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    2. Kelsi asked by Kelsi
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  9. how much work is required to completely separate two charges (each -1.4 microcoulombs) and leave them at rest if they were
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    2. CourtneyW asked by CourtneyW
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  10. Two charges are separated by a distance d = 5 m. The charge q1 has a charge of q1= 7.0 µC (microcoulombs) and q2 has a charge
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    2. marissa asked by marissa
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