Production of Induced emf in a Coil (Procedure).html

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				<div class="divContent"><h1><strong>Materials Required</strong></h1>
	
	<ul>
		<li>Coil&nbsp;</li>
		<li>Galvanometer&nbsp;</li>
		<li>Connecting wires&nbsp;</li>
		<li>Magnet&nbsp;</li>
		<li>Rheostat&nbsp;</li>
		<li>Key&nbsp;</li>
		<li>Insulator like glass sheet or cardboard &nbsp;</li>
		<li>Cell&nbsp;</li>
	</ul>
	
	<p>&nbsp;</p>
	
	<h1><strong>The Procedure</strong></h1>
	
	<h2>&nbsp;<strong>Real Lab Procedure</strong></h2>
	
	<h3><strong>1. A&nbsp;magnet towards and away from it</strong></h3>
	
	<ul>
		<li>Connect 100 turns coil to sensitive galvanometer.</li>
		<li>Hold magnet towards the coil.&nbsp;&nbsp;</li>
		<li>observe some deflection of the galvanometer needle.&nbsp;</li>
		<li>Move the magnet away from the coil with roughly the same speed as it moves towards the coil. You will observe the same deflection, but now in opposite direction.&nbsp;</li>
		<li>Repeat procedures with different speeds.&nbsp;</li>
	</ul>
	
	<h3><strong>2.Demonstrating production of induced emf in a coil due to the movement of similar coil carrying current towards and away from it.&nbsp;</strong></h3>
	
	<ul>
		<li>Connect coil of 100 turns to sensitive galvanometer.&nbsp;</li>
		<li>Take another coil of 50 turns.&nbsp;</li>
		<li>Connect 50 turns coil&nbsp;to the lower end of rheostat.&nbsp;</li>
		<li>Connect the upper end of rheostat to key.&nbsp;</li>
		<li>Connect the key to the negative terminal of the cell.&nbsp;</li>
		<li>Connect positive side of battery to 50 turns coil.&nbsp;&nbsp;</li>
	</ul>
	
	<p><img alt="" src="./Production of Induced emf in a Coil (Procedure)_files/1694148294_circiut_diagram2.png" style="width: 500px; height: 333px;"></p>
	
	<p><strong>a) Production of induced emf by moving coil towards or away from another coil&nbsp;</strong></p>
	
	<ul>
		<li>Close key.&nbsp;</li>
		<li>Move the 50 turns coil&nbsp;towards 100 turns coil.</li>
		<li>Move the 50 turns coil&nbsp;away from the&nbsp;100 turns coil&nbsp;with same speed.&nbsp;</li>
		<li>Repeat the experiment with different speeds.&nbsp;</li>
		<li>Place 50 turns coil at a closer distance from 100 turns coil.</li>
	</ul>
	
	<p><strong>b) Production of induced emf by Changing current&nbsp;</strong></p>
	
	<ul>
		<li>Close key.&nbsp;</li>
		<li>Change current through 50 turns coil&nbsp;using rheostat.&nbsp;</li>
		<li>Observe what happens in galvanometer.&nbsp;</li>
	</ul>
	
	<p><strong>c)Production of induced emf by Opening and closing key and changing common area between the coils&nbsp;</strong></p>
	
	<ul>
		<li>Place 50 turns coil on 100 turns coil&nbsp;separated by glass sheet.&nbsp;</li>
		<li>Close the key.&nbsp;</li>
		<li>Open the key.&nbsp;</li>
		<li>Observe what happens when we open and close the key.&nbsp;</li>
		<li>Close key.&nbsp;&nbsp;</li>
		<li>Slide 50 turns coil on glass sheet&nbsp;as common area between the 50 turns coil&nbsp;and 100 turns coil decreases.&nbsp;</li>
		<li>Observe what happens.&nbsp;&nbsp;</li>
		<li>Slide 50 turns coil&nbsp;on glass sheet&nbsp;as common area between the 50 turns coil&nbsp;and 100 turns coil decreases.&nbsp;</li>
		<li>Observe what happens.&nbsp;</li>
	</ul>
	
	<h2><strong>&nbsp;Simulator&nbsp;Procedure&nbsp;</strong></h2>
	
	<ul>
		<li>Show the first experiment-A magnet towards and away from it.&nbsp;</li>
		<li>Click on the check box to show/hide the circuit diagram and connect the circuit.&nbsp;&nbsp;</li>
		<li>Drag and drop the wire from the 100 turns coil to positive terminal of galvanometer to connect it.&nbsp;&nbsp;</li>
		<li>Drag and drop the wire from the other end of 100 turns coil to negative terminal of galvanometer to connect it.&nbsp;&nbsp;</li>
		<li>Click on magnet A.&nbsp;</li>
		<li>Select the speed of magnet using slider.&nbsp;&nbsp;</li>
		<li>Click on the magnet to move the magnet towards the coil.&nbsp;&nbsp;</li>
		<li>Click on the magnet to move the magnet away from the coil.&nbsp;&nbsp;</li>
		<li>Repeat procedures with different speeds.&nbsp;</li>
		<li>Click on magnet B.&nbsp;</li>
		<li>Repeat the above procedure with Magnet B.&nbsp;</li>
		<li>Click on the Inference button to show the observation.&nbsp;&nbsp;</li>
		<li>Click on the Next button.&nbsp;&nbsp;</li>
		<li>Show the second experiment - Similar coil carrying current towards and away from it.&nbsp;&nbsp;</li>
		<li>Click on the check box to show/hide the circuit diagram and connect the circuit.&nbsp;&nbsp;</li>
		<li>Drag and drop the wire from the 100 turns coil to one end of galvanometer to connect it.&nbsp;&nbsp;</li>
		<li>Drag and drop the wire from the 100 turns coil to another end of galvanometer.&nbsp;&nbsp;</li>
		<li>Drag and drop the wire from the 50 turns coil to lower end of Rheostat.&nbsp;&nbsp;</li>
		<li>Drag and drop the wire from the key to upper end of Rheostat.&nbsp;&nbsp;</li>
		<li>Drag and drop the wire from the –ve end of the cell to another end of the key.&nbsp;&nbsp;</li>
		<li>Drag and drop the wire from the +ve end of the cell to 50 turns coil.&nbsp;&nbsp;&nbsp;&nbsp;</li>
		<li>Select the experiment from the drop-down list.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;</li>
	</ul>
	
	<p>a)&nbsp;<strong>Moving Coil&nbsp;</strong></p>
	
	<ul>
		<li>Drag and drop the key into the key holder.&nbsp;&nbsp;</li>
		<li>Select the speed of 50 turns coil using slider.&nbsp;&nbsp;</li>
		<li>Click on the 50 turns coil to move towards the 100 turns coil.&nbsp;&nbsp;</li>
		<li>Click on the 50 turns coil to move away from the 100 turns coil.&nbsp;&nbsp;</li>
		<li>Repeat procedures with different speeds.&nbsp;</li>
		<li>Click on the Inference button to show the observation.&nbsp;&nbsp;</li>
	</ul>
	
	<p>b)&nbsp;<strong>Changing Current</strong></p>
	
	<ul>
		<li>Drag and drop the key into the key holder.&nbsp;</li>
		<li>Click the Move Slider button to move the rheostat slider on the right side.&nbsp;&nbsp;</li>
		<li>Click the Move Slider button to move the rheostat slider on the left side.&nbsp;&nbsp;</li>
		<li>Click on the Inference button to show the observation.&nbsp;</li>
	</ul>
	
	<p>c) <strong>Changing Current &amp; Area&nbsp;</strong></p>
	
	<ul>
		<li>Click the glass plate and place it on the 100 turns coils.&nbsp;</li>
		<li>Click the 50 turns coil and place it on the glass plate.&nbsp;</li>
		<li>&nbsp;Drag and drop the key into the key holder.&nbsp;</li>
		<li>Click on the Inference button to show the observation.&nbsp;&nbsp;</li>
		<li>Drag and drop the key outside the key holder.&nbsp;</li>
		<li>Click on the Inference button to show the observation.&nbsp;&nbsp;&nbsp;</li>
		<li>Click on the Next button.&nbsp;&nbsp;</li>
		<li>Drag and drop the key into the key holder.&nbsp;</li>
		<li>Click on the 50 turns coil and move on the glass plate as the common area decreases.&nbsp;</li>
		<li>Click on the 50 turns coil and move on the glass plate as the common area increases.&nbsp;</li>
		<li>Click on the Inference button to show the observation.&nbsp;</li>
	</ul>
	
	<h1><strong>Observation&nbsp;</strong></h1>
	
	<ul>
		<li>When we bring magnet towards or away from the coil, pointer in galvanometer deflects. Deflection in the galvanometer increases with the speed of magnet.</li>
		<li>When we move 50 turns coil&nbsp;towards 100 turns coil, pointer in the galvanometer deflects. As the speed of the 50 turns coil changes, the deflection of the pointer in the galvanometer changes.</li>
		<li>The pointer in the galvanometer deflects when the current through the 50 turns coil changes.</li>
		<li>When we close or open the key the pointer in the galvanometer deflects.&nbsp;</li>
		<li>When we change the common area between the coils, the pointer on the galvanometer deflects.</li>
	</ul>
	
	<p>&nbsp;</p>
	
	<h1><strong>Conclusion&nbsp;</strong></h1>
	
	<p>When magnetic flux through a coil changes an emf induces in that coil.&nbsp;</p>
	
	
	
	
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