The document discusses the magnetic effects of electric current. It describes how magnetic fields are produced by currents and magnets. The key points covered include:
- Magnetic field lines emerge from the north pole of a magnet and enter the south pole. A current carrying conductor produces concentric circular magnetic field lines based on the right hand rule.
- Changing magnetic fields or moving conductors through magnetic fields induce currents based on Fleming's rules.
- Direct current flows in one direction while alternating current reverses direction periodically at fixed frequencies like 50 Hz for power grids.
- Electric circuits use fuses to protect from overloading and short circuits which can damage wiring and devices.
a) Magnetic field :-
The region around a magnet where the force of attraction or repulsion can be detected is called magnetic field.
Magnetic field around a magnet can be detected by using a magnetic compass.
a) Magnetic field :-
The region around a magnet where the force of attraction or repulsion can be detected is called magnetic field.
Magnetic field around a magnet can be detected by using a magnetic compass.
Very important Chapter of physics because it contains all the important laws needed to understand concepts in physics.
And i hope it will be helpful to you
ELECTROMAGNETISM
INTRODUCTION
The phenomenon where by electricity creates magnetism is known as electromagnetism. When an insulated wire is wrapped with round an iron nail and the ends of the wire connected to the battery the nail becomes capable of picking up iron fillings paper. This is a simple electromagnet. The nail has been magnetized by the current in the wire. Disconnecting the wire from the battery the paper clips fall off. The nail looses most of first magnetism when the current is switched off. The passage of electric current along a wire creates a magnetic field around the wire. The lines of forces due to a straight current carrying wire are circles, center on the wire on the wire. The field is strongest near the wire the direction of the magnetic field is r
Magnetic Effects of Electric Current for Grade 10th StudentsMurari Parashar
In this chapter, we will study the effects of electric current : Moving charges or electric current generates a magnetic field. This is useful to CBSE Students.
Electric charges
Current
Potentialand its difference
Circuits
Heating effects
Magnetic effects
Magnetic Field Lines in straight and coiled conductors
Electromagnets
Electromagnetic Induction
Motors and Generators
Very important Chapter of physics because it contains all the important laws needed to understand concepts in physics.
And i hope it will be helpful to you
ELECTROMAGNETISM
INTRODUCTION
The phenomenon where by electricity creates magnetism is known as electromagnetism. When an insulated wire is wrapped with round an iron nail and the ends of the wire connected to the battery the nail becomes capable of picking up iron fillings paper. This is a simple electromagnet. The nail has been magnetized by the current in the wire. Disconnecting the wire from the battery the paper clips fall off. The nail looses most of first magnetism when the current is switched off. The passage of electric current along a wire creates a magnetic field around the wire. The lines of forces due to a straight current carrying wire are circles, center on the wire on the wire. The field is strongest near the wire the direction of the magnetic field is r
Magnetic Effects of Electric Current for Grade 10th StudentsMurari Parashar
In this chapter, we will study the effects of electric current : Moving charges or electric current generates a magnetic field. This is useful to CBSE Students.
Electric charges
Current
Potentialand its difference
Circuits
Heating effects
Magnetic effects
Magnetic Field Lines in straight and coiled conductors
Electromagnets
Electromagnetic Induction
Motors and Generators
Students, digital devices and success - Andreas Schleicher - 27 May 2024..pptxEduSkills OECD
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Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
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The map views are useful for providing a geographical representation of data. They allow users to visualize and analyze the data in a more intuitive manner.
We all have good and bad thoughts from time to time and situation to situation. We are bombarded daily with spiraling thoughts(both negative and positive) creating all-consuming feel , making us difficult to manage with associated suffering. Good thoughts are like our Mob Signal (Positive thought) amidst noise(negative thought) in the atmosphere. Negative thoughts like noise outweigh positive thoughts. These thoughts often create unwanted confusion, trouble, stress and frustration in our mind as well as chaos in our physical world. Negative thoughts are also known as “distorted thinking”.
2. 1) Magnetic field and Field lines :-
a) Magnetic field :-
The region around a magnet where the force of attraction
or repulsion can be detected is called magnetic field.
Magnetic field around a magnet can be detected by using
a magnetic compass.
3. b) Magnetic field lines :-
Magnetic field lines are the paths around a magnet along which the
north pole of a magnetic compass needle tends to move.
The magnetic field lines around a magnet can be observed by
sprinkling iron filings around a magnet. It can also be observed by
moving a magnetic compass around a magnet.
i) The magnetic field lines emerge at the north pole and merge at the
south pole.
ii) The magnetic field lines are closer at the poles.
iii) The magnetic field lines do not intersect each other.
4. 2) Magnetic field due to a current carrying conductor :-
If a magnetic compass is placed near a conductor carrying current
(wire), the needle is deflected. This shows that a conductor carrying
current has a magnetic field around it.
If the direction of the current is from north to south, the deflection of
the magnetic needle is towards the east.
If the direction of the current is from south to north, the deflection of
the needle is towards the west.
The magnetic field around a current carrying straight conductor is in
concentric circles. It can be observed by passing a current carrying
straight conductor through a cardboard and sprinkling iron filings on it.
N
N
S
S
W
E
5. Right hand thumb rule :-
The direction of the magnetic field around a conductor is given by the
Right Hand Thumb Rule.
It states that ‘ If a current carrying conductor is held in the right hand
such that the thumb points in the direction of current, then the fingers
wrapped around the conductor shows the direction of the magnetic
field ’.
6. 3) Magnetic field due to a current through a
circular loop :-
When current is passed through a circular conductor
(loop) the magnetic field produced is in the form of
concentric circles around the conductor. Towards the centre
the arcs of the circles become larger and appears as straight
line.
7. 4) Magnetic field due to current in a solenoid :-
A solenoid is a circular coil of wire in the shape of a cylinder.
When current flows through a solenoid, it behaves like a bar magnet.
The ends of the solenoid behaves like the North and South poles of a
magnet. The magnetic field produced by a solenoid is similar to the
magnetic field produced by a bar magnet.
The strength of the magnetic field depends upon the strength of the
current and the number of turns of the coil.
8.
9. 5) Electromagnet :-
A strong magnetic field inside a solenoid can be used to
magnetise a piece of magnetic material like a soft iron when
placed inside the coil. Such a magnet is called an
electromagnet.
If electric current is passed through a wire wound around
a piece of soft iron, it behaves like a magnet. Such a magnet
is called an electromagnet.
( )
10. 6) Force on a conductor carrying current in a magnetic
field :-
A.M.Ampere suggested that if a current carrying conductor produces a
magnetic field and exerts a force on a magnet, then a magnet should also
exerts a force on a current carrying conductor.
Eg :- If an aluminium rod is suspended horizontally by a wire between the
poles of a horse shoe magnet and current is passed through the wire,
then the aluminium rod is displaced. If the direction of current is reversed,
the direction of displacement is also reversed. The force exerted is
maximum if the conductor is perpendicular to the magnetic field.
11. Fleming’s Left Hand Rule :-
The direction of force (motion) of a current carrying conductor in a
magnetic field is given by Fleming’s Left Hand Rule.
It states that ‘ If we hold the thumb, fore finger and middle finger of
the left hand perpendicular to each other such that the fore finger
points in the direction of magnetic field, the middle finger points in the
direction of current, then the thumb shows the direction of force
(motion) of the conductor’.
12. 7) Electromagnetic induction:- (Michael Faraday)
The motion of a magnet with respect to a coil or a change in the
magnetic field induce a potential difference in the coil and produces
induced current. This is called electromagnetic induction.
i) Motion of a magnet with respect to a coil produces induced current :-
If a magnet is moved towards or away from a coil of wire connected
to a galvanometer, the galvanometer needle shows a deflection. This
shows that current is induced in the coil due to the motion of the
magnet.
13. ii) Change in magnetic field produces induced current :-
Take two coils of wires wound around a cylindrical paper roll.
Connect one coil to a battery and the other coil to a galvanometer. If
current is passed through the first coil, the galvanometer needle shows
a deflection in the second coil. If the current is disconnected, the
needle moves in the opposite direction. This shows that current is
induced due to change in magnetic field.
Coil -1 Coil - 2
( )
battery key galvanometer
14. Fleming’s Right Hand Rule :-
The direction of induced current is given by Fleming’s Right Hand Rule.
It states that ‘ If the thumb, fore finger and middle finger of the right
hand is held perpendicular to each other such that the thumb points in
the direction of motion of the conductor, the fore finger points in the
direction of the magnetic field, then the middle finger shows the
direction of induced current ’.
15. 8) Direct and Alternating current :-
a) Direct current (DC) :- A current that always flows in one direction
only is called direct current.
The current we get from a battery is a direct current.
b) Alternating current (AC) :- A current that reverses its direction
periodically is called alternating current.
Most power stations in our country produce alternating current. AC
changes direction every 1/100 second and its frequency is 50 Hertz
(Hz).
One advantage of AC over DC is that it can be transmitted over long
distances without much loss of energy.
Direct current Alternating current
Current Current
0.01s 0.02s
Time (s)
Time
16. 9) Domestic electric circuit :-
Earth wire Distrbution box
with main switch
and fuses
Electric power to homes is supplied through the mains. It has two wires. One is a
live wire (positive wire) with red insulation and the other is a neutral wire
(negative wire) with black insulation. The potential difference between the two
wires is 220V. The earth wire with green insulation is connected to a metal plate
kept in the ground.
Two separate circuits are used. One is of 15A for appliances with high power
rating like geysers, air conditioners etc. The other is of 5A for fans, bulbs etc.
The different appliances are connected in parallel so that every appliance gets
equal voltage and even if one is switched off the others are not affected.
The appliances having metallic body like electric iron, refrigerators etc., their
metallic body is connected to the earth wire so that if there is leakage of current,
it passes to the earth and prevents electric shock.
Pole
fuse
Electric
ity
Meter
17. 10 a) Electric fuse :-
Electric fuse is a safety device used in electric circuits to protect the
circuit and appliances from damage due to overloading and short circuit.
It is a wire having high resistance and low melting point. If excess
current flows through the circuit, the fuse wire melts and breaks the
circuit. Fuse wire is made of a metal or an alloy of metals like lead, tin,
aluminium and copper. Fuse wire is connected in series with the live
wire.
b) Overloading :-
Overloading is caused due to increase in voltage, or if the live wire
and neutral wire comes in contact or if too many appliances are
connected to a single socket. It results in overheating of the wires and
can cause damage to the circuit and appliances.
c) Short circuit :-
Short circuit is caused when the live wire and neutral wire comes in
contact and the current suddenly increases in the circuit. It causes
spark, fire and damage to the circuit and appliances.