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2 years ago

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A rectangular coil with dimensions 0.14 m 0.14 m by 0.27 m 0.27 m has 550 550 turns of wire. It is rotated about its long axis i

n a magnetic field of 0.50 T . 0.50 T. At what frequency f f must the coil be rotated for it to generate a maximum potential of 130 V ?

1 answer:

Step2247 [10]2 years ago

3 0

Answer:

The frequency of coil must be 1.99 Hz

Explanation:

Given:

Magnetic field $B = 0.50$ T

Area of rectangular coil $A = 0.14 \times 0.27 = 0.0378$ $m^{2}$

Maximum potential $\epsilon _{max} = 130$ V

Number of turns $N = 550$

For finding the frequency we use faraday's law

Maximum induced emf in rectangular coil is given by,

$\epsilon _{max} = NBA\omega$

Where $\omega = 2\pi f$

$\epsilon _{max} = NBA(2\pi f )$

$f = \frac{\epsilon _{max} }{NBA2\pi }$

$f = \frac{130}{550 \times 0.50 \times 0.0378 \times 6.28}$

$f = 1.99$ Hz

Therefore, the frequency of coil must be 1.99 Hz

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To determine the height of a tall building such as Sears Tower in Chicago, Illinois a ball was dropped from the top of the build

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The height of Sears Tower is 1448.5 feet.

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<h3>We apply the free fall formula to the ball: </h3><h3> $y=v_{o} *t+\frac{1}{2} *g*t^{2}$ </h3><h3>y: The vertical distance the ball moves at time t </h3><h3> $v_{o}$ i: Initial speed </h3><h3>g=Gravity acceleration= $9.8*(\frac{\frac{1ft}{0.305m} }{s^{2} } )$ </h3>

Known information

We know that the vertical distance (y) that the ball moves in 9,5s is equal to height of Sears Tower (h).

Too we know that the ball is released from rest, then, $v_{0}$ =0

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We replace in the equation 1 the data following;

$y=h$

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$g=32,1\frac{ft}{s^{2} }$

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Answer:

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