An electron falls through a distance d in a uniform electric field of magnitude E. Thereafter,...
An electron falls through a distance d in a uniform electric
field of magnitude E. Thereafter, the direction of the field is
reversed (keeping its magnitude the same) and now a proton falls
through the same distance. Compare, using quantitative reasoning,
the time of fall in each case.
Contrast this situation with that of objects falling freely under
gravity.
Also, make sure that your response(s) are substantial and consist of at least 30 words.
Homework Answers
Force experienced by electron or proton in an electric field = eE
Or using Newton second law of motion, F = ma
So ma = eE so acceleration a = eE/m
So acceleration of electron is more than that of proton
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An electron falls through a distance d in a uniform electric
field of magnitude E. Thereafter,...
An electron falls through a distance d in a uniform electric field of magnitude E. Thereafter,...
An electron falls through a distance d in a uniform electric field of magnitude E. Thereafter, the direction of the field is reversed (keeping its magnitude the same) and now a proton falls through the same distance. Compare, using quantitative reasoning, the time of fall in each case. Contrast this situation with that of objects falling freely under gravity.
For this discussion, respond to the following... An electron falls through a distance d in a...
For this discussion, respond to the following... An electron falls through a distance d in a uniform electric field of magnitude E. Thereafter, the direction of the field is reversed (keeping its magnitude the same) and now a proton falls through the same distance. Compare, using quantitative reasoning, the time of fall in each case Contrast this situation with that of objects falling freely under gravity
Subscribe For this discussion, respond to the following.. An electron falls through a distance d in...
Subscribe For this discussion, respond to the following.. An electron falls through a distance d in a uniform electric field of magnitude E. Thereafter, the direction of the field is reversed (keeping its magnitude the same) and now a proton falls through the same distance. Compare, using quantitative reasoning, the time of fall in each case. Contrast this situation with that of objects falling freely under gravity
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For this discussion, respond to the following... An electron falls through a distance d in a uniform electric field of magnitude E. Thereafter, the direction of the field is reversed (keeping its magnitude the same) and now a proton falls through the same distance. Compare, using quantitative reasoning, the time of fall in each case Contrast this situation with that of objects falling freely under gravity
Subscribe For this discussion, respond to the following.. An electron falls through a distance d in a uniform electric field of magnitude E. Thereafter, the direction of the field is reversed (keeping its magnitude the same) and now a proton falls through the same distance. Compare, using quantitative reasoning, the time of fall in each case. Contrast this situation with that of objects falling freely under gravity
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The electric field between two parallel plates is uniform, with magnitude 576 N/C. A proton is held stationary at the positive plate, and an electron is held stationary at the negative plate. The plate separation is 4.30 cm. At the same moment, both particles are released (a) Calculate the distance (in cm) from the positive plate at which the two pass each other. Ignore the electrical attraction between the proton and electron cm (b) Repeat part (a) for a sodium...
An uniform electric field, E. with a magnitude of passes through a square surface at an angle of α-32.5 degrees relative to a line on the surface, as shown in the figure below. The square measures 2m x 2m, and the flux through the surface is measured to be 21.4 What is the magnitude of the electric field, Eo? N-m
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