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Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

Introduction

Magnet

  • A magnet is a material that generates a magnetic field, enabling it to attract or repel other materials with magnetic properties. For example, lodestone, a natural magnet, can attract materials such as iron, nickel, and cobalt.

  • Every magnet possesses two poles—north and south—which are inseparable. When suspended freely, the north pole of a magnet aligns itself with the Earth's geographic north. Similar to electric charges, magnetic poles exhibit the properties of attraction and repulsion: like poles repel each other, while opposite poles attract.

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12
  • An electric current-carrying wire behaves like a magnet. Electromagnets and electric motors involve the magnetic effect of electric current, and electric generators involve the electric effect of moving magnets.
  • Compass needle get deflected on passing an electric current through a metallic conductor.

Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

Bar Magnet

  • A bar magnet is a solid, typically rectangular object made of materials like iron, steel, or other ferromagnetic substances, with natural magnetic properties. 
  •  It has two distinct poles: a north pole and a south pole
  •  When freely suspended, the north pole aligns with the Earth’s geographic north. 
  •  Picture a rectangular iron bar magnet with two ends: one being the north pole and the other the south pole. 
  •  When suspended, its north pole always points toward the Earth’s north pole
  •  This characteristic makes it crucial for navigation, as demonstrated by its use in magnetic compasses
  •  The bar magnet’s behavior highlights its inherent magnetic properties and clearly defined poles. 

Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

Properties of Magnet

Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

(i) Every magnet has two poles i.e. North and South.
(ii) Like poles repel each other.
(iii) Unlike poles attract each other.
(iv) A freely suspended bar magnet aligns itself in nearly north-south direction, with its north pole towards north direction.

Magnetic Field and Field Lines

  • Magnetic field is a quantity that possesses both size and direction.
  • The orientation of the magnetic field is determined by the movement of a north pole of a compass needle within it.
    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12
  • As a convention, it is assumed that the field lines emerge from the north pole and converge at the south pole.
  • Within the magnet, the field lines flow from the south pole to the north pole, forming closed loops.

Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

  • The intensity of the magnetic field is depicted by the proximity of the field lines. A denser concentration of lines indicates a stronger field, resulting in greater force on the pole of another magnet placed in that area.
  • It is observed that field lines do not intersect. If they did, it would suggest that at the point of intersection, the compass needle would indicate two directions, which is impossible.

Question for Chapter Notes: Magnetic Effects of Electric Current
Try yourself:Which of the following is a property of magnets?
View Solution

Magnetic Field of a Bar Magnet

  • H. C. Oersted was the first person to state that electric current has magnetic field.
  • Think of a magnetic field as an invisible force that surrounds a magnet. 
    •  This field is what causes magnets to attract or repel other objects. 
    •  Imagine the force you feel when you bring two magnets close to each other. 
    •  This force spreads out around the magnet and influences nearby objects. 
    •  When we mention a magnetic field, we are referring to this invisible area around a magnet where its power can be sensed. 

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

    Question for Chapter Notes: Magnetic Effects of Electric Current
    Try yourself:
    What is the direction of the magnetic field inside a magnet?
    View Solution

    Magnetic Field Due to a Current-Carrying Conductor

    Magnetic Field due to Current through a Straight Conductor

    • Concentric circles can represent it at every point on conductor.
    • Direction can be given by right-hand thumb rule or compass.
    • Circles are closer to the conductor.

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

    • When you change the current in a copper wire, the compass needle placed nearby also changes its direction.
    • If you increase the current, the needle's deflection increases as well, showing that the magnetic field's strength at that point rises with the current.
    • If you move the compass away from the wire while keeping the current constant, the needle's deflection decreases.
    • Magnetic fieldStrength of current.
    • This change happens because the magnetic field weakens as you move farther from the wire.
    • Magnetic field ∝ 1/Distance from conductor

    Right-Hand Thumb Rule

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

    • Imagine you are holding a current carrying straight conductor in your right hand such that the thumb is pointing towards the direction of current.
    • Then the fingers wrapped around the conductor give the direction of magnetic field.

    Magnetic Field due to Current through a Circular Loop

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

    • Just like how the magnetic field around a straight wire varies with distance, the field around a circular loop forms concentric circles that expand as you move away.
    • As you approach the centre of the loop, these circles appear as straight lines.
    • Each point on the wire contributes to straight magnetic field lines at the loop's centre, all in the same direction.
    • Using the right-hand rule, we can confirm that each wire segment adds to the magnetic field within the loop.
    • The strength of the magnetic field at a point due to a current-carrying wire is directly proportional to the current flowing through it.
    • If a coil has multiple turns, the resulting field is stronger, as each turn's field adds up due to the consistent current direction.

    Factors affecting magnetic field of a circular current carrying conductor

    • Magnetic field ∝ Current passing through the conductor
    • Magnetic ∝ 1/Distance from conductor
    • Magnetic field ∝ No. of turns in the coil

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

    • Magnetic field is additive in nature i.e., magnetic field of one loop adds up to magnetic field of another loop. This is because the current in each circular turn has some direction.

    Magnetic Field due to a Current in a Solenoid

    • A solenoid is a coil made of many circular loops of insulated copper wire wrapped tightly in a cylinder shape.
    • One end of the solenoid acts like a magnetic north pole, while the other end acts like a south pole.
    • Within the solenoid, the magnetic field lines are straight and parallel, showing uniformity throughout.
    • Due to this uniformity, a strong magnetic field is created inside the solenoid, capable of magnetizing materials like soft iron when placed within the coil 
    • The resultant magnet is termed an electromagnet.

    Direction of magnetic field

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12(i) Outside the solenoid: North to South
    (ii) Inside the solenoid: South to North
    Solenoids can be used to magnetise a magnetic material like soft iron.

    Force on a Current carrying Conductor in a Magnetic Field

    • French scientist Andre Marie Ampere (1775–1836) proposed that a magnet also exerts a matching force on a current-carrying conductor.
    • When an aluminum rod carrying current is placed in a magnetic field, it experiences a force, as indicated by the rod's movement.

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

    • The force's direction changes when the current's direction in the conductor is reversed.
    • Upon flipping the magnet's poles to make the field point downward, the force direction on the rod reverses once more.
    • This demonstrates that the force's orientation on the conductor relies on both the current's direction and the magnetic field's direction.
    • Experiments reveal that the greatest rod displacement (or force magnitude) occurs when the current is perpendicular to the magnetic field.
    • In such a scenario, a simple rule can be applied to determine the force's direction on the conductor.

    Fleming’s Left-Hand Rule

    • Stretch the thumb, fore finger and middle finger of your left hand such that they are mutually perpendicular. Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12
    • If the finger points in the direction of the magnetic field and the middle finger in the direction of the current, then the thumb will point in the direction of motion or force.
    • The heart and brain in the human body have significant magnetic fields.
    • MRI (Magnetic Resonance Imaging): An image of internal organs of the body can be obtained using the magnetic field of the organ.
    • Galvanometer: Instrument that can detect the presence of current in a circuit. It also detects the direction of the current.

    Question for Chapter Notes: Magnetic Effects of Electric Current
    Try yourself:
    Which of the following factors affect the magnetic field of a circular current carrying conductor?
    View Solution

    Domestic Electric Circuits

    There are three kinds of wires used:

    1. Live wire (positive) with red insulation cover.
    2. Neutral wire (negative) with black insulation cover.
    3. Earth wire with green insulation cover.

    The potential difference between live and neutral wire in India is 220 V.

    Pole ⇒ Main supply ⇒ Fuse ⇒ Electricity meter ⇒ Distribution box ⇒ To separate circuits

    Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

    • Earth Wire: Protects us from electric shock in case of current leakage, especially in metallic body appliances. It provides a low resistance path for current in case of leakage of current.
    • Short Circuit: When live wire comes in direct contact with neutral wire accidentally. The resistance of the circuit becomes low, which can result in overloading.
    • Overloading: When the current drawn is more than the current carrying capacity of a conductor, it results in overloading.

    Causes of overloading

    • Accidental hike in voltage supply.
    • Use of more than one appliance in a single socket.

    Safety devices

    • Electric fuse
    • Earth wire
    • MCB (Miniature Circuit Breaker)
    The document Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12 is a part of the Class 10 Course Science Class 10.
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    FAQs on Magnetic Effects of Electric Current Class 10 Notes Science Chapter 12

    1. What are the main properties of magnets?
    Ans. The main properties of magnets include: 1. Attraction and Repulsion: Magnets attract ferromagnetic materials like iron and can repel other magnets. 2. Polarity: Every magnet has a north and a south pole; like poles repel each other, while opposite poles attract. 3. Magnetization: Certain materials can become magnets when subjected to a magnetic field. 4. Magnetic Field: Magnets create a magnetic field around them, which can affect other magnetic materials and current-carrying conductors.
    2. How is a magnetic field represented, and what are field lines?
    Ans. A magnetic field is represented by magnetic field lines. These lines illustrate the direction and strength of the magnetic field. The lines emerge from the north pole of a magnet and enter the south pole. The density of the lines indicates the strength of the field; closer lines represent a stronger magnetic field, while farther lines indicate a weaker field.
    3. What is the magnetic field due to a straight current-carrying conductor?
    Ans. The magnetic field around a straight current-carrying conductor forms concentric circles around the wire. The direction of the magnetic field can be determined using the right-hand rule: if you point your thumb in the direction of the current, your fingers will curl in the direction of the magnetic field lines. The strength of the magnetic field decreases with distance from the conductor.
    4. How does a magnetic field exert a force on a current-carrying conductor?
    Ans. A magnetic field exerts a force on a current-carrying conductor due to the interaction between the magnetic field and the magnetic field created by the current. This force can be determined using Fleming's Left-Hand Rule, which states that if you arrange your thumb, forefinger, and middle finger perpendicular to each other, the thumb represents the force, the forefinger the magnetic field, and the middle finger the direction of the current.
    5. What are the key components of a domestic electric circuit?
    Ans. The key components of a domestic electric circuit include: 1. Power Source: Typically a battery or mains electricity that provides the necessary voltage. 2. Conductors: Wires that carry electric current, usually made of copper. 3. Load: Electrical devices (like bulbs, fans, etc.) that consume electrical energy. 4. Switch: A device to open or close the circuit, controlling the flow of electricity. 5. Fuse: A safety device that prevents excessive current from flowing through the circuit, protecting against overloads.
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