effects of current electricity
Post on 06-Jan-2018
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Chemical effectsNo chemical change is taking
place in metals but in an
electrolyte many changes are
taking place.
Electrolytes are chemical
substances which contains ions
and capable of carrying a
current in a solution. They are
acids, bases, and salts.
Electrolysis
Electrolysis is a decomposition
of liquid compound by passing
electric current through liquid
called electrolyte (salt water,
copper sulphate, sulphuric
acid).
Chemical effectsFaraday's Laws of Electrolysis
First law states that the mass of a substance deposited or liberated on
an electrode during electrolysis is proportional to the total quantity of electric charge passed through the electrolyte.
If m is the mass of substance deposited or liberated When charge q passes
m α qOr m = z qWhere “z” is a constant of proportionality and is called
electrochemical equivalent
Second lawstates that if same quantity of charge is passed through several electrolytes, the mass of substance deposited or liberated at electrodes is proportional to their chemical equivalent (equivalent weight).
If m1 & m2 are masses of the substances liberated or deposited on various electrodes When same current is passed for same time through their electrolytes E1 & E2 are the chemical equivalentsm1 / m2 = E1 / E2
Chemical effectsOne of the chemical effects of an electric current is used to define the size of the unit of current
the international congress of electricians at Chicago in 1893 agreed to define the unit-current as one which deposits silver at the rate of 0.001118 grams per second.
This unit is called an ampere.
Magnetic effects
Electromagnetic induction The process of producing electricity by magnetic field and vice-versa
It is the result of interaction between a conductor & a magnetic lines of forceThe factors essential for electro magnetic induction are1.A conductor2.Magnetic lines of force3.Relative movement
Magnetic effects
• A current is induced either by moving a magnet near the loop or by moving the loop near a magnet.
• It is the relative motion between the two which is important.• Electromagnetic induction takes place because of the relative
motion between a magnet and a coil. • The induced current exists as long as there is a relative motion
between the coil and the magnet.• When the magnet is moved faster, then the amount of current
induced is found to be higher.
• The factors essential for electro magnetic induction.– A conductor– Magnetic lines of force– Relative movements between the conductor and the magnetic
lines of force• The strength of the induced electromotive force
( force which causes electrons to move along a conductor connecting points of different potential) depends on,– The rate of change of the magnetic field => high frequency of AC
current gives stronger EMF.– The inductance ( ability to induced a current; measured in
Henries) of the conductor => use many turns of wire in the coil, placing the turns of the coil close together and winding the coil on to a soft iron core.
Maxwell's Right Hand Grip Rule
If we hold the current carrying wire in our right hand in such a way that the thumb is stretched along the direction of the current, then the curled fingers give the direction of the magnetic field produced by the current.
Magnetic effectsA coil of wire that carries a current could produce a magnetic field exactly like the field around a permanent magnet.
Fleming's Right Hand Rule The direction of the current in a wire moving perpendicular to itself and to a magnetic field may be found by Fleming's right hand rule.If the thumb, forefinger and middle finger of the right hand are stretched in a mutually perpendicular direction, in such a way that the forefinger directs towards the magnetic field, the thumb shows the motion of the wire, then the middle finger shows the direction of the induced current.
Lenz's Law
The magnetic field of any induced current opposes the change that induces it.
Self inductance• In a coil connected to a battery through a rheostat, the current
through the coil produces a magnetic flux which links with the coil itself.
• If we vary the resistance in the circuit, the current through the coil changes and the magnetic flux through the coil also change.
• This change in flux indicates an EMF in the coil itself. • Such an EMF is called self-induced EMF and the phenomenon
is called self induction
If tow coils are close together a changing current and magnetic field in one can induce a changing magnetic field and current in the other
Mutual inductance
• Induced in conductors in the presence of changing magnetic fields.
• It is caused when a moving (or changing) magnetic field intersects a conductor, or vice-versa.
• The relative motion causes a circulating flow of electrons, or current, within the conductor.
• It transform useful forms of energy, such as kinetic energy, into heat, which is generally much less useful.
• Hence they reduce the efficiency of many devices that use changing magnetic fields, such as iron-core transformers and electric motors.
Eddy currents (Foucault current)
Thermal effects• Heat is produced in current-carrying conductors, resulting in
an increase in temperature of the conducting material.• The heating is a result of the collisions between the moving
free electrons and the relatively stationary atoms of the conductor material.
Joule’s Law The rate at which heat is produced in a resistor is proportional to the square of the current flowing through it, if the resistance is constant.
H I2
Thermal effectsWork done by an electric current
• The work done in moving 'Q' charges through a potential difference 'V' in a time 't' is given by Work done = potential difference x current x time W = VIt
• The same can be expressed differently using ohm's law. According to ohm's law V = IR Therefore work can be expressed as W = VIt or W = (IR) It = I2Rt
Thermal effects
• An 'electric fuse' is an important application of the heating effect of current.
• When the current drawn in a domestic electric circuit increases beyond a certain value, the fuse wire gets over heated, melts and breaks the circuit.
• This prevents fire and damage to various electrical appliances.
Thank You..
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