6. Particle A is placed at position (3, 3) m, particle B is placed at (-3, 3) m, particle C is placed at (-3, -3) m, and particle D is placed at (3, -3) m. Particles A and B have a charge of -q and particles C and D have a charge of +2q. a) Draw a properly labeled coordinate plane with correctly placed and labeled charges (3 points). b) Draw and label a vector diagram showing the electric field vectors at position (0, 0) m (3 points). c) Solve for the magnitude and direction of the net electric field strength at position (0, 0) m (7 points).
6. Particle A is placed at position (3, 3) m, particle B is placed at (-3, 3) m, particle C is placed at (-3, -3) m, and particle D is placed at (3, -3) m. Particles A and B have a charge of -q and particles C and D have a charge of +2q. a) Draw a properly labeled coordinate plane with correctly placed and labeled charges (3 points). b) Draw and label a vector diagram showing the electric field vectors at position (0, 0) m (3 points). c) Solve for the magnitude and direction of the net electric field strength at position (0, 0) m (7 points).
6. Particle A is placed at position (3, 3) m, particle B is placed at (-3, 3) m, particle C is placed at (-3, -3) m, and particle D is placed at (3, -3) m. Particles A and B have a charge of -q and particles C and D have a charge of +2q. a) Draw a properly labeled coordinate plane with correctly placed and labeled charges (3 points). b) Draw and label a vector diagram showing the electric field vectors at position (0, 0) m (3 points). c) Solve for the magnitude and direction of the net electric field strength at position (0, 0) m (7 points).
Particle A is placed at position (3, 3) m, particle B is placed at (-3, 3) m, particle C is placed at (-3, -3) m, and particle D is placed at (3, -3) m. Particles A and B have a charge of -q and particles C and D have a charge of +2q. Given A and B is -3 µC and C and D is +6 µC
b) Draw and label a vector diagram showing the electric field vectors at position (0, 0) m
c) Solve for the magnitude and direction of the net electric field strength at position (0, 0) m
Quantities that have magnitude and direction but not position. Some examples of vectors are velocity, displacement, acceleration, and force. They are sometimes called Euclidean or spatial vectors.
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