DEFINITION OF ENGINEERING

 Engineering is the application of principles of science for welfare of human being.

MAGNETIC EFFECT OF CURRENT

		MAGNETIC EFFECT OF ELECTRIC CURRENT v Hans Christian Oersted discovered a relationship between electricity and magnetism. v A current carrying wire behaves as a magnet.[1] v When a current passes through a wire, a magnetic field is set up around the wire. This effect of current is called magnetic effect of current. v Like magnetic poles repel each other and unlike magnetic poles attract each other. v Magnetic field is a space or region around a current carrying wire or a magnet within which its influence is felt by a tiny magnet. v The path along which a free unit north pole moves in a magnetic field is called magnetic field line. The tangent at any point on a magnetic field line gives the direction of the magnetic field at that point. v No two magnetic field lines can intersect or cross each other. v Magnetic field lines are crowded in a region of strong magnetic field. v Magnetic field lines are far apart in a region of weak magnetic field. v When current passes through a straight wire or conductor, a magnetic field is set up around the wire or the conductor. v Magnetic field around a current carrying wire or conductor is represented by concentric circles centered at the wire or the conductor. v The direction of magnetic field around the current carrying conductor is determined by ‘Right Hand Thumb Rule’. v Magnetic field around the current carrying wire increases with the increase in the current passing through the wire. v Magnetic field around the current carrying wire decreases as we go away from the wire. v Magnetic field due to a very long wire like a power transmission line carrying current I and at a distance r from the wire is given by, B = (µ0/4Π.).2.I/r, where,   µ0  = 4Π X 10-7 Tm/A v Two parallel conductors carrying current the same direction attract each other. v Two parallel conductors carrying current the opposite direction repel each other. v  The magnetic field around a straight current carrying conductor can be increased by bending it into a circular loop.
	v The strength of magnetic field produced at centre of a circular loop of a wire is 1-directly proportional to the amount of current passing through the loop of the wire, 2-directly proportional to the number of turns of the circular loop of the wire, 3-inversely proportional to the radius of the circular loop of the wire. v Magnetic field produced by current carrying circular wire or loop decreases on both sides along the axis of the circular wire. v A solenoid is a coil of many turns of an insulated copper wire closely wound in the shape of a tight spring. v Magnetic field inside a current carrying solenoid is a uniform magnetic field. v A solenoid carrying current behaves like a bar magnet. v A soft iron rod placed in a current carrying solenoid is known as electromagnet. v A current carrying conductor placed perpendicular to the magnetic field experiences maximum force. v The force acting on a current carrying conductor placed perpendicular to the magnetic field B is given by, F = B.I.L v Direction of force experienced by a current carrying conductor placed in a magnetic field is determined by ‘Fleming’s Left Hand Rule’. v No force acts on a current carrying conductor when placed parallel to the magnetic field. v SI unit of magnetic field is tesla(T). v Force acting on a charge moving perpendicular to the magnetic field  is called ‘Lorentz Force’. v Force acting on a charge Q moving with velocity v perpendicular to the magnetic field is given by, F = B.Q.v v No force acts on a charge moving parallel to the magnetic field. v No force acts on a charge at rest in the magnetic field. v Direction of force experienced by a moving charge in a magnetic field is determined by ‘Right Hand Rule’. v Electric motor is a device which converts electrical energy into mechanical energy. v Electric motor works on the principle that a current carrying conductor placed perpendicular to a magnetic field experiences a force. v The phenomenon of producing induced current in a closed circuit due to the change in magnetic field in the nearby circuit is known as ‘Electromagnetic Induction’.
v More induced current flows through a closed coil if a bar magnet is brought towards or away from the coil with large speed. v No induced current flows through a closed coil if magnetic field linked with it does not change. v Direction of induced current in a conductor is determined by ‘Fleming’s Right Rule’. v Direct current is an electric current whose magnitude is either constant or variable but the direction of flow in a conductor remains the same. v Frequency of direct current is zero. v Alternating current is an electric current whose magnitude changes with time and direction reverse periodically. v In India frequency of AC is 50 Hz. v AC is more dangerous than DC. v Electric generator is a device used to convert mechanical energy into electrical energy. v Electric generator works on the principle of electromagnetic induction. v To supply electric power from one place to another place three wires known as phase wire(or live wire), neutral wire & earth wire are used. v The potential difference between the live wire & neutral wire in a household supply of electric power is 220 V. v Current rating of a fuse is the maximum amount of electric current that can be passed through the fuse wire without melting it. v Current rating of a fuse wire in a circuit having bulbs & tubes is 5 A. v Current rating of a fuse wire in a circuit having heating appliance is 15 A. v Electric fuse is a safety device used to save the electrical appliances from burning when large current flows in the circuit. v Electric fuse is made of a material of low melting point. v Material used for making a fuse wire is made of copper. v When live wire & neutral wire come in direct contact, the resistance of the circuit becomes very small. Hence huge current flows through the circuit. This huge current produces large amount of heat in the circuit and the circuit catches fire. This is known as short circuiting.

Er. V. K. Pandey                                                                                                                  

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MAGNETIC EFFECT OF CURRENT

		MAGNETIC EFFECT OF ELECTRIC CURRENT v Hans Christian Oersted discovered a relationship between electricity and magnetism. v A current carrying wire behaves as a magnet.[1] v When a current passes through a wire, a magnetic field is set up around the wire. This effect of current is called magnetic effect of current. v Like magnetic poles repel each other and unlike magnetic poles attract each other. v Magnetic field is a space or region around a current carrying wire or a magnet within which its influence is felt by a tiny magnet. v The path along which a free unit north pole moves in a magnetic field is called magnetic field line. The tangent at any point on a magnetic field line gives the direction of the magnetic field at that point. v No two magnetic field lines can intersect or cross each other. v Magnetic field lines are crowded in a region of strong magnetic field. v Magnetic field lines are far apart in a region of weak magnetic field. v When current passes through a straight wire or conductor, a magnetic field is set up around the wire or the conductor. v Magnetic field around a current carrying wire or conductor is represented by concentric circles centered at the wire or the conductor. v The direction of magnetic field around the current carrying conductor is determined by ‘Right Hand Thumb Rule’. v Magnetic field around the current carrying wire increases with the increase in the current passing through the wire. v Magnetic field around the current carrying wire decreases as we go away from the wire. v Magnetic field due to a very long wire like a power transmission line carrying current I and at a distance r from the wire is given by, B = (µ0/4Π.).2.I/r, where,   µ0  = 4Π X 10-7 Tm/A v Two parallel conductors carrying current the same direction attract each other. v Two parallel conductors carrying current the opposite direction repel each other. v  The magnetic field around a straight current carrying conductor can be increased by bending it into a circular loop.
	v The strength of magnetic field produced at centre of a circular loop of a wire is 1-directly proportional to the amount of current passing through the loop of the wire, 2-directly proportional to the number of turns of the circular loop of the wire, 3-inversely proportional to the radius of the circular loop of the wire. v Magnetic field produced by current carrying circular wire or loop decreases on both sides along the axis of the circular wire. v A solenoid is a coil of many turns of an insulated copper wire closely wound in the shape of a tight spring. v Magnetic field inside a current carrying solenoid is a uniform magnetic field. v A solenoid carrying current behaves like a bar magnet. v A soft iron rod placed in a current carrying solenoid is known as electromagnet. v A current carrying conductor placed perpendicular to the magnetic field experiences maximum force. v The force acting on a current carrying conductor placed perpendicular to the magnetic field B is given by, F = B.I.L v Direction of force experienced by a current carrying conductor placed in a magnetic field is determined by ‘Fleming’s Left Hand Rule’. v No force acts on a current carrying conductor when placed parallel to the magnetic field. v SI unit of magnetic field is tesla(T). v Force acting on a charge moving perpendicular to the magnetic field  is called ‘Lorentz Force’. v Force acting on a charge Q moving with velocity v perpendicular to the magnetic field is given by, F = B.Q.v v No force acts on a charge moving parallel to the magnetic field. v No force acts on a charge at rest in the magnetic field. v Direction of force experienced by a moving charge in a magnetic field is determined by ‘Right Hand Rule’. v Electric motor is a device which converts electrical energy into mechanical energy. v Electric motor works on the principle that a current carrying conductor placed perpendicular to a magnetic field experiences a force. v The phenomenon of producing induced current in a closed circuit due to the change in magnetic field in the nearby circuit is known as ‘Electromagnetic Induction’.
v More induced current flows through a closed coil if a bar magnet is brought towards or away from the coil with large speed. v No induced current flows through a closed coil if magnetic field linked with it does not change. v Direction of induced current in a conductor is determined by ‘Fleming’s Right Rule’. v Direct current is an electric current whose magnitude is either constant or variable but the direction of flow in a conductor remains the same. v Frequency of direct current is zero. v Alternating current is an electric current whose magnitude changes with time and direction reverse periodically. v In India frequency of AC is 50 Hz. v AC is more dangerous than DC. v Electric generator is a device used to convert mechanical energy into electrical energy. v Electric generator works on the principle of electromagnetic induction. v To supply electric power from one place to another place three wires known as phase wire(or live wire), neutral wire & earth wire are used. v The potential difference between the live wire & neutral wire in a household supply of electric power is 220 V. v Current rating of a fuse is the maximum amount of electric current that can be passed through the fuse wire without melting it. v Current rating of a fuse wire in a circuit having bulbs & tubes is 5 A. v Current rating of a fuse wire in a circuit having heating appliance is 15 A. v Electric fuse is a safety device used to save the electrical appliances from burning when large current flows in the circuit. v Electric fuse is made of a material of low melting point. v Material used for making a fuse wire is made of copper. v When live wire & neutral wire come in direct contact, the resistance of the circuit becomes very small. Hence huge current flows through the circuit. This huge current produces large amount of heat in the circuit and the circuit catches fire. This is known as short circuiting.

Er. V. K. Pandey                                                                                                                  

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