An electron having an initial horizontal velocity of magnitude1.00 * 109 cm/s travels into the region between two horizontal metalplates that are electrically charged. In that region, the electron travelsa horizontal distance of 2.00 cm and has a constant downward accelerationof magnitude 1.00 * 1017 cm/s2 due to the charged plates.Find (a) the time the electron takes to travel the 2.00 cm, (b) the verticaldistance it travels during that time, and the magnitudes of its (c)horizontal and (d) vertical velocity components as it emerges fromthe region.
An electron having an initial horizontal velocity of magnitude1.00 * 109 cm/s travels into the region between two horizontal metalplates that are electrically charged. In that region, the electron travelsa horizontal distance of 2.00 cm and has a constant downward accelerationof magnitude 1.00 * 1017 cm/s2 due to the charged plates.Find (a) the time the electron takes to travel the 2.00 cm, (b) the verticaldistance it travels during that time, and the magnitudes of its (c)horizontal and (d) vertical velocity components as it emerges fromthe region.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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An electron having an initial horizontal velocity of magnitude
1.00 * 109 cm/s travels into the region between two horizontal metal
plates that are electrically charged. In that region, the electron travels
a horizontal distance of 2.00 cm and has a constant downward acceleration
of magnitude 1.00 * 1017 cm/s2 due to the charged plates.
Find (a) the time the electron takes to travel the 2.00 cm, (b) the vertical
distance it travels during that time, and the magnitudes of its (c)
horizontal and (d) vertical velocity components as it emerges from
the region.
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