There is a uniform vertical downward electric field as shown in the figure whose intensity is 1200N/C. If an electric charge q = 276 μC is thrown horizontally, with a speed V0 = 5.50 x 10^6 m/s, the mass of the charge is m = 8.67 x 10^-6 kg and it is thrown from a height of 10.0 cm. a. The weight of the load is:_____N. b. The acceleration of the load is:_____m/s2 . c. It is valid in this case to consider that the weight is negligible compared to the electric force acting on the load.
There is a uniform vertical downward electric field as shown in the figure whose intensity is 1200N/C. If an electric charge q = 276 μC is thrown horizontally, with a speed V0 = 5.50 x 10^6 m/s, the mass of the charge is m = 8.67 x 10^-6 kg and it is thrown from a height of 10.0 cm. a. The weight of the load is:_____N. b. The acceleration of the load is:_____m/s2 . c. It is valid in this case to consider that the weight is negligible compared to the electric force acting on the load.
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There is a uniform vertical downward electric field as shown in the figure whose intensity is 1200N/C. If an electric charge q = 276 μC is thrown horizontally, with a speed V0 = 5.50 x 10^6 m/s, the mass of the charge is m = 8.67 x 10^-6 kg and it is thrown from a height of 10.0 cm.
a. The weight of the load is:_____N.
b. The acceleration of the load is:_____m/s2 .
c. It is valid in this case to consider that the weight is negligible compared to the electric force acting on the load.
d. The load drop time is:_____°.
Transcribed Image Text:Vo
E
10.0 cm
F
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