The diagram below shows three masses at the corners of a square of sides d = 1.10 m. Here, m, = m, = m and m, = 3.10m where m = 9.00 kg. m2 d (a) What is the magnitude of the gravitational field at the center of the square due to these three masses? 1.39e-9 What is the field at the center due to the two equal masses? Did you consider the symmetry of the situation? m/s? (b) Suppose the two masses m, and m, are not equal. What value of m, will produce a gravitational field at the center of the square directed vertically down? kg

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The diagram below shows three masses at the corners of a square of sides d = 1.10 m. Here, m, = m, = m and m, = 3.10m where m = 9.00 kg.
m,
m3
m1
(a) What is the magnitude of the gravitational field at the center of the square due to these three masses?
1.39e-9
What is the field at the center due to the two equal masses? Did you consider the symmetry of the situation? m/s2
(b) Suppose the two masses m, and m, are not equal. What value of m, will produce a gravitational field at the center of the square directed vertically down?
kg
Transcribed Image Text:The diagram below shows three masses at the corners of a square of sides d = 1.10 m. Here, m, = m, = m and m, = 3.10m where m = 9.00 kg. m, m3 m1 (a) What is the magnitude of the gravitational field at the center of the square due to these three masses? 1.39e-9 What is the field at the center due to the two equal masses? Did you consider the symmetry of the situation? m/s2 (b) Suppose the two masses m, and m, are not equal. What value of m, will produce a gravitational field at the center of the square directed vertically down? kg
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