tential difference of 206 V between two paral lel plates as shown. The particle
ID: 1865003 • Letter: T
Question
tential difference of 206 V between two paral lel plates as shown. The particle is injected through a hole in the right-hand plate into a region of space containing a uniform mag- 003 (part 1 of 2) 10.0 points A small circular coil of 10 turns of wire lies in a uniform magnetic Beld of 0.7 T,so that the mckain (rm56783)- Homework 8-williams- (1820541) normal to the plane of the coil makes an angleA straight rod moves along parallel con- of 90 with the direction of B. The radius of ducting rails, as shows. The rails are con- the coil is 5 cm, and it carries a current of1 A. nected at the left side through a resistor so What is magnitude of the magnetic mothat the rod and rails form a closed rectangu lar loop. A uniform ield perpendicular to the movement of the rod exists throughout the re gion. Assume the rod remains in contact with The rod experiences no ment of the coil? Answer in units of A m 004 (part 2 of 2) 10.0 points the rails as it moves. What is the magnitude of the torque exerted friction or air drag. The rails and rod have on the coil? negligible resistance Answer in units of N m. 2.7T 005 10.0 points What current is required in the windings of a long solenoid that has 1437 turns uniformly distributed over a length of 0.472 m in order to produce inside the solenoid a magnetic field of magnitude 6.95 x 10- T? The permeablity8 of free space is 1.25664 × 10-6 T m/A. ?0)- .? 2.7 T Answer in units of mA 006 (part 1 of 2) 10.0 points At what speed should the rod be moving to A magnetic fiekd of 1 T is perpendicular to a prodc the uperard current in the resistor? Answer in units of m/s square coil of 20 tus. The length of each side of the coil is 4 em. Find the magnetic fux through an individ- 010 (part 2 of 2) 10.0 points ual turn of the coil. What motion does the rod exhibit? Answer in units of mWb 1. Moving either left or right, since both directions produce the same result 007 (part 2 of 2) 10.0 points Find the magnetic Bux through an individual turn of the coil if the magnetic field makes an angle of 30 with the normal to the plane of the coil. 2. Moving to the left 3. Moving to the right Answer in units of mWb Stationary 008 10.0 points A rectangular coil 0.063 m by 0.060 m is A eible loop of conducting wire has ar sitioned so that its cross-sectional area pendicular to the direction of a magnetic field The coil has 54 turns and a total resistance of magnetic field with a strength of 0.19 T, as 9.1 S and the field decreases at a rate of 2.6 T/s, 11 10.0 points wire has a radius of 0.17 mand is perpendicular to a uniform per shown. What is the magnit ude of the induced cur- rent in the col? Answer in units of A 009 (part 1 of 2) 10.0 pointsExplanation / Answer
009(part 1 of 2) a straight rod moves along.......
Ans.
Induced emf,
iR= BLv
2.7*0.65= 2.7* 1.7* v
v= 0.382 m/s
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Using Fleming's right hand rule
Motion must to the left.
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According to chegg guidelines we can solve one problem at a time..plz reattach your other problem separately.. good luck
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