/ Preparation Physics Electromagnetic Induction
Moving Coil Galvanometer is a type of sensitive electrical measuring instrument used to detect and measure small electric currents. It is an essential component in various scientific and engineering applications, and it forms the basis for more advanced instruments like ammeters and voltmeters. This device operates on the principle of electromagnetic induction and is commonly studied in NCERT Class 12 Physics.
- Moving Coil Galvanometer
- FAQs on Moving Coil Galvanometer
Moving Coil Galvanometer
Here's an explanation of the moving coil galvanometer:
Basic Structure: A moving coil galvanometer consists of a coil of wire (usually made of copper or aluminium) that is wound around a lightweight, non-magnetic frame. The coil is suspended between the poles of a permanent magnet.
Magnet and Coil Arrangement: The permanent magnet creates a uniform magnetic field within which the coil is positioned. The coil is free to rotate around its axis.
Damping System: To ensure that the coil comes to rest quickly and doesn't oscillate excessively, a damping system is included. This system usually includes a small air vane attached to the coil, which moves through air or oil, providing resistance to the coil's motion.
Connection to the Circuit: The coil is connected to the circuit where the current must be measured. When an electric current flows through the coil, it generates a magnetic field that interacts with the magnetic field of the permanent magnet.
Working Principle: According to Faraday's law of electromagnetic induction, when a coil of wire moves in a magnetic field, an electromotive force (EMF) is induced in the coil. In the case of a moving coil galvanometer, the coil experiences a torque due to the interaction of the two magnetic fields. This torque causes the coil to rotate.
Determination of Current: The angle the coil rotates is proportional to the current passing through it. A scale is attached to the coil, and a pointer is also fixed to the coil. As the coil rotates, the pointer moves along the scale, providing a reading that corresponds to the current passing through the coil.
Measurement Units: The deflection of the pointer can be calibrated to measure the current in amperes (A) or milliamperes (mA) depending on the instrument's design.
Sensitivity: Moving coil galvanometers are highly sensitive instruments and can detect even tiny currents. They are often used for measurements in the microampere (µA) range.
Applications: These galvanometers are used in laboratories and industries for a wide range of applications, including in the measurement of current, and resistance, and as a component in more advanced instruments like ammeters and voltmeters.
It's important to note that moving coil galvanometers are often used as the basis for ammeters and voltmeters, which are instruments used to measure current and voltage, respectively. In these instruments, additional shunt resistors or multipliers are used to convert the galvanometer's current readings into the appropriate units.
FAQs on Moving Coil Galvanometer
Q. A circular coil of wire consisting of 100 turns, each of radius 8.0 cm carries a current of 0.40 A. What is the magnitude of the magnetic field B at the centre of the coil?
A 4.1
Number of turns of the circular coil, n = 100
Radius of each turn, r = 8.0 cm = 0.08 m
Current flowing in the coil, I = 0.4 A
Magnitude of the magnetic field at the centre of the coil is given as
= where = Permeability of free space = 4 Tm
Hence, = = 3.14 T
Q. A galvanometer coil has a resistance of 12 Ω and the meter shows full scale deflection for a current of 3 mA. How will you convert the meter into a voltmeter of range 0 to 18 V?
Resistance of the galvanometer coil, G = 12 Ω
Current for which there is full scale deflection, = 3 mA = 3 A
Range of voltmeter = 0, to be converted to 18 V, hence V = 18 V
Let there be a resistor R connected in series with the galvanometer to convert it into a voltmeter. R is given as
R = - G = - 12 = 5988 Ω
Hence the required value of resistor is 5988 Ω
Q. A galvanometer coil has a resistance of 15 Ω and the meter shows full scale deflection for a current of 4 mA. How will you convert the meter into an ammeter of range 0 to 6 A?
Resistance of the galvanometer coil, G = 15 Ω
Current for which galvanometer shows full deflection, = 4 mA = 4 A
Range of ammeter has to be converted from 0 to 6 A, hence I = 6 A
A shunt resistor S is to be connected in parallel with the galvanometer to convert it to an ammeter. The value of S is given as
S = = = 10 mΩ
Hence, a shunt resistor of 10 mΩ is to be connected to galvanometer to convert it to an ammeter.
Physics Electromagnetic Induction Exam
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