S L Arora Solutions for Chapter: Magnetic Effect of Current, Exercise 4: HOTS Problems on Higher Order Thinking Skills
S L Arora Physics Solutions for Exercise - S L Arora Solutions for Chapter: Magnetic Effect of Current, Exercise 4: HOTS Problems on Higher Order Thinking Skills
Attempt the practice questions on Chapter 4: Magnetic Effect of Current, Exercise 4: HOTS Problems on Higher Order Thinking Skills with hints and solutions to strengthen your understanding. New Simplified Physics (Vol 1) For Class 12 solutions are prepared by Experienced Embibe Experts.
Questions from S L Arora Solutions for Chapter: Magnetic Effect of Current, Exercise 4: HOTS Problems on Higher Order Thinking Skills with Hints & Solutions
A given rectangular coil of area , carrying a given current , is placed in a uniform magnetic field , in two different orientations (a) and (b) as
shown. What is the magnitude of torque experienced by this coil in the two cases ?
A coil in the shape of an equilateral triangle of side is suspended from a vertex such that it is hanging in a vertical plane between the pole pieces of permanent magnet producing a horizontal magnetic field tesla. Find the couple acting on the coil when a current of is passed through it and the magnetic field is parallel to its plane.
In the circuit shown in Figure, a voltmeter reads , when it is connected across resistance. Calculate what the same voltmeter will read, when connected across the resistance.
A voltmeter of resistance and an ammeter of resistance are connected in a circuit to measure, a resistance R as shown in Figure. The ratio of the meter readings gives an apparent resistance . Show that and are related by the relation
.
A length of a wire carries a current . Show that if the wire is formed into a circular coil, the maximum torque in a given magnetic field is developed when the coil has one turn only and the maximum torque has the value,.
A galvanometer is shunted by th of its resistance. Find the fraction of the total current passing through the galvanometer.
If a galvanometer is connected in series with a high resistance so that potential drop across the galvanometer is th of the total applied voltage, then show
that the combined resistance of the galvanometer and the series resistor is n times the resistance of the galvanometer i.e., .
A galvanometer of resistance is converted into a voltmeter to measure upto volts by connecting a resistance in series with the coil. If a resistance is connected in series with it, then it can measure upto volts. Find the resistance, in terms of and , required to be connected to convert it into a voltmeter that can read upto . Also find the resistance of the galvanometer in terms of and .