Describe an activity to show how a moving magnet may be used to generate an electric current . State the rule to find the direction of electric current generated in the coil.
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Answers
Answer:
when a magnet is moved with high velocity towards closed coil then EMF is induced in it because it cause change in magnetic flux linked with that coil and real life examples are dynamo and electricity generator and to find direction of induced current you can use Fleming's right hand rule and also so it is known that direction of EMF induced is such that it will always oppose the cause which produces it there for you. use this concept to find direction of electric current
answer of Q1
Activity:
Take a coil of wire AB having a large number of turns.
image(given in the picture)
Connect the ends of the coil to a galvanometer.
Take a strong bar magnet and move its north pole towards the end B of the coil.
There is a momentary deflection in the needle of the galvanometer, say to the right. This indicates the presence of a current in the coil AB. The deflection becomes zero the moment the motion of the magnet stops.
Now withdraw the north pole of the magnet away from the coil. Now the galvanometer is deflected toward the left, showing that the current is now set up in the direction opposite to the first.
Place the magnet stationary at a point near to the coil, keeping its rforth pole towards the end B of the coil. We see that the galvanometer needle deflects toward the right when the coil is moved towards the north pole of the magnet. Similarly, the needle moves toward left when the coil is moved away.
When the coil is kept stationary with respect to the magnet, the deflection of the galvanometer drops to zero.
To find the direction of electric current Fleming’s right hand rule is applied. According to it, if we stretch the forefinger, middle finger and thumb of our right hand mutually perpendicular in such a way that thumb points along the direction of motion of conductor, forefinger along the direction of magnetic field; then the middle finger points along the direction of induced current.
When current in P is changed, the field associated with Q will vary causing an induced current in Q.
If both the coils are moved in the same direction with same speed, there will not be any change in the field associated with Q. Hence no current will be induced in Q.
answer of Q2
The direction of the current can be easily be determined using Fleming's Right Hand Thumb rule which states that When we stretch the thumb, index finger and middle finger of right hand in mutually perpendicular direction, the thumb points in the direction of motion of conductor, the index finger points in the direction ...
