An electron 1mass = 9.11 * 10-31 kg2 leaves one end of aTV picture tube with zero initial speed and travels in a straight line tothe accelerating grid, which is 1.80 cm away. It reaches the grid with aspeed of 3.00 * 106 m/s. If the accelerating force is constant, compute(a) the acceleration; (b) the time to reach the grid; and (c) the net force,in newtons. Ignore the gravitational force on the electron.
An electron 1mass = 9.11 * 10-31 kg2 leaves one end of aTV picture tube with zero initial speed and travels in a straight line tothe accelerating grid, which is 1.80 cm away. It reaches the grid with aspeed of 3.00 * 106 m/s. If the accelerating force is constant, compute(a) the acceleration; (b) the time to reach the grid; and (c) the net force,in newtons. Ignore the gravitational force on the electron.
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An electron 1mass = 9.11 * 10-31 kg2 leaves one end of a
TV picture tube with zero initial speed and travels in a straight line to
the accelerating grid, which is 1.80 cm away. It reaches the grid with a
speed of 3.00 * 106 m/s. If the accelerating force is constant, compute
(a) the acceleration; (b) the time to reach the grid; and (c) the net force,
in newtons. Ignore the gravitational force on the electron.
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