Homework Answers
solving first question
Q3
induced emf =change in flux/time
change in flux=0.1413
induced emf=0.1413/3=0.047 V
induced current=emf/R=0.0235A=23.6 mA
(b) Induced current will be such that it will oppose the increase of magnetic field (By Lenz's law)
so direction is clockwise if seen from right side of coil
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Can someone help me with these problems, thank you!
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The rectangular coil in the figure below has 94 turns, is 25 cm wide and 30...
The rectangular coil in the figure below has 94 turns, is 25 cm
wide and 30 cm long, and is located in a magnetic field B = 0.14 T
directed out of the page as shown. Only half of the coil in the
region of the magnetic field. The resistance of the coil is 23 ?.
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HELP PLS HELP!!!!! ANSWER BOTH PARTS THANK YOU!!! A circular coil of radius 5 cm has...
HELP PLS HELP!!!!! ANSWER BOTH PARTS THANK
YOU!!!
A circular coil of radius 5 cm has 50 turns of wire. The uniform
magnetic field directed into the page/screen (see the figure below)
is linearly increased in magnitude form 0 to 0.8 T. What
time interval for this increase is needed to induce in the coil emf
= 0.25 V? What is the direction of the induced emf
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To solve this problem I used:
The Coulomb’s law;
The Snall’s law;...
A 20-turn coil with radius 4 cm lies in the x-y plane. The coil has a...
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Q1. A magnetic field points perpendicularly into a 2.0 cm x 4.0 cm rectangular coil with 120 turns and 0.25 Ω total resistance. At a certain instant, the magnetic field strength is 0.22 T and it is increasing at a rate of 2.5 T/s a) The induced current in the coil is a. clockwise. b. counter clockwise. b) Calculate the instantaneous induced current in the coil.
1. (20 pts) A circular coil with a radius of 8.0 cm is dropped from a location where the magnetic field is 0.2 T into a region where the magnetic field is 1.6 T. The coil takes 0.12 s to fall, has 60 turns and is perpendicular to the magnetic field. The field does not change direction. a. Find the average induced emf in the coil as a result of this action. b. If the induced current flows clockwise as...
The component of the external magnetic field along the central axis of a 125-turn circular coil of radius 26.0 cm decrsases from 2.40 T to 0.650 T in 3.50 s. If the resistance of the col is 9.000,what is the magnitude of the induced current in the coil? Number What is the direction of the current if the axial component of the field points away from the viewer? clockwise O counter-clockwise
The component of the external magnetic field along the...
please show calculations. the answers are 11mA, 4.8uC, and
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A 50-turn circular coil (radius = 15 cm) with a total resistance of 4.0 ohm is placed in a uniform magnetic field directed perpendicularly to the plane of the coil. The magnitude of this field varies with time according to B = A sin (at), where A = 80 mu T and alpha = 50 pi rad/s. What is the magnitude of the current induced in the coil at t...
The rectangular coil in the figure below has 94 turns, is 25 cm
wide and 30 cm long, and is located in a magnetic field B = 0.14 T
directed out of the page as shown. Only half of the coil in the
region of the magnetic field. The resistance of the coil is 23 ?.
Find the magnitude and direction of the induced current if the coil
is moving with a velocity of 2.0 m/s to the right, up...
B Q4) As shown in the figure, a circular coil of diameter d = 1 m and resistance R = 4.1 is fully immersed inside a uniform magnetic field. The magnetic field is out of the page and its magnitude varies in time according to B = 2 In (), where B is in milli-Tesla and t is in seconds. At t = 6 s d a) Find the magnetic flux through the coil. (4p) b) Find the emf induced...
HELP PLS HELP!!!!! ANSWER BOTH PARTS THANK
YOU!!!
A circular coil of radius 5 cm has 50 turns of wire. The uniform
magnetic field directed into the page/screen (see the figure below)
is linearly increased in magnitude form 0 to 0.8 T. What
time interval for this increase is needed to induce in the coil emf
= 0.25 V? What is the direction of the induced emf
(clockwise/conterclockwise)?
To solve this problem I used:
The Coulomb’s law;
The Snall’s law;...
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