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Find the acceleration of a proton released from a point near the positive plate of a charged capacitor with an energy density between the plates of 1.25 x 10^-4 j/m^3.
Identify two primitive and two non-primitive cells of a two-dimensional face-centered square lattice. Give the primitive unit vector and draw it on the figure.
An electric vehicle starts from rest and accelerates at a rate a1 in a straight line until it reaches a speed of v. How much time elapses from start to stop
a 0.700-kg ball is on the end of a rope that is 0.50 m in length. the ball and rope are attached to a pole and the
A water pump draws about 6 A when connected to 240 V. What is the cost (with electrical energy at 17 cents per kWh) of running the pump for 13 h
If the radius of curvature of the cornea is 0.65cm when the eye is focusing on an object 36.0 cm from the cornea vertex and the indexes of refraction are as described before, what is the distance from the cornea vertex to the retina
A parallel-plate capacitor with a 3.0mm plate separation is charged to 71V. With what kinetic energy, in eV, must a proton be launched from the negative plate if it is just barely able to reach the positive plate
A 10 g steel marble is spun so that it rolls at 150 rpm around the inside of a vertically oriented steel tube. The tube is 12 cm in diameter. Assuming that the rolling resistance is negligible enough for the marble to maintain 150 rpm for several ..
What relationship can you infer about the directions of the electric field lines and equipotential lines, What is the potential of the conductor
A small insect is placed 7.90cm from a +8.00%u2212cm -focal-length lens. Calculate the position of the image
The diagonal members in the center panels of the truss shown are very slender and can act only in tension; such members are known as counters. Determine the force in member DE and in the counters which are acting under the given loading.
A Van de Graaff generator is utilized to demonstrate the effects of high potential. The device has a radius of 29.5cm and stands in air. What is its maximum potential? How much charge does the dome hold at its maximum potential?
Test theory out by playing with Fendt's Projectile demo as applied to two WNBA players. Here are the dimensions.
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