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Class 10 Science Chapter 12 Practice Question Answers - Magnetic Effects of Electric Current
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Q1: The property of a substance to attract or repel another substance is known as
View AnswerAns: Magnetism.
Explanation: Magnetism is the property of materials like iron or nickel to attract or repel other materials due to their magnetic fields, caused by moving electric charges.
Q2: The current-carrying conductor is surrounded by a magnetic field, which is in the form of ___________ lines.
View AnswerAns: Magnetic field lines.
Explanation: Magnetic field lines are invisible lines that represent the direction and strength of a magnetic field around a current-carrying conductor. They form concentric circles around the wire.
Q3: The SI unit of magnetic field strength is ___________.
View AnswerAns: Tesla (T).
Explanation: Tesla (T) is the SI unit of magnetic field strength, measuring the intensity of the magnetic field at a given point.
Q4: The magnetic field inside a current-carrying solenoid is ___________ and uniform.
View AnswerAns: Strong.
Explanation: Inside a solenoid, the magnetic field is strong and uniform due to the alignment of magnetic field lines in the same direction, creating a powerful magnetic effect.
Q5: The device used to detect the presence of current in a circuit is called a ___________.
View AnswerAns: Galvanometer.
Explanation: A galvanometer is a sensitive instrument used to detect and measure small electric currents in a circuit by showing deflection on its scale.
Short Answer Questions
Q6: How does the strength of the magnetic field produced by a current-carrying conductor change when the current is increased?
View AnswerAns: The strength of the magnetic field increases with an increase in current.
Q7: Explain why the North pole of a magnet gets attracted to the South pole of another magnet.
View AnswerAns: This attraction occurs due to the alignment of magnetic domains in opposite directions, creating a stronger combined magnetic field.
Q8: State Ampere's law.
View AnswerAns: Ampere's law states that the magnetic field around a closed loop is directly proportional to the electric current passing through the loop.
Q9: What is the purpose of using a soft iron core in an electromagnet?
View AnswerAns: A soft iron core enhances the magnetic field strength in an electromagnet by providing a path for the magnetic lines of force to concentrate.
Q10: Describe the rule to determine the direction of the magnetic field using the right-hand thumb rule.
View AnswerAns: Point your thumb in the direction of the current flow, and your curled fingers indicate the direction of the magnetic field around the conductor.
Long Answer Questions
Q11: Explain the working principle of an electric motor.
View AnswerAns: An electric motor operates on the principle of electromagnetic induction. When current flows through a coil (armature) placed in a magnetic field, a force is exerted on the coil due to the interaction between the magnetic field and the current. This force causes the coil to rotate, resulting in mechanical motion.
Q12: Compare the working of a direct current (DC) motor and an alternating current (AC) motor.
View AnswerAns: A DC motor operates on direct current and uses a split-ring commutator to reverse the direction of current in the coil, causing continuous rotation. An AC motor operates on alternating current and doesn't require a commutator. The direction of current in the coil changes with each half-cycle, causing the rotor to turn.
Q13: How does an electric bell work?
View AnswerAns: An electric bell consists of an electromagnet, a hammer, and a gong. When the current flows through the coil, it generates a magnetic field that attracts the iron armature, causing the hammer to strike the gong. This interrupts the circuit, and the magnetic field collapses. The armature returns to its original position due to a spring, completing the circuit again. This cycle repeats, producing the bell's ringing sound.
Q14:State and explain Fleming's left-hand rule for the direction of the force experienced by a current-carrying conductor placed in a magnetic field.
View AnswerAns: According to Fleming's left-hand rule, if the forefinger, thumb, and middle finger of the left hand are held perpendicular to each other, with the forefinger representing the magnetic field direction (B), the middle finger representing the current direction (I), then the thumb indicates the direction of the force (F) experienced by the conductor.
Q15: Describe the construction and working of a simple DC generator.
View AnswerAns: A simple DC generator consists of a rectangular coil of wire rotating between the poles of a permanent magnet. When the coil rotates, it cuts across the magnetic field lines, inducing an electromotive force (EMF) or voltage in the coil. This EMF causes current to flow through the external circuit when the coil is connected to a load. The split-ring commutator reverses the direction of current in the coil at each half-rotation, resulting in a unidirectional current output.
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FAQs on Class 10 Science Chapter 12 Practice Question Answers - Magnetic Effects of Electric Current
| 1. What is the principle behind the magnetic effects of current? |  |
| 2. How can we visualize the magnetic field around a current-carrying conductor? | |
Ans. We can visualize the magnetic field around a current-carrying conductor using a compass. When a compass needle is placed near a straight wire carrying current, it will align itself tangentially to the magnetic field lines created by the current. The direction of the magnetic field can be determined using the right-hand thumb rule: if you point your thumb in the direction of the current, your curled fingers will show the direction of the magnetic field lines.
| 3. What are the applications of the magnetic effects of current? | |
Ans. The magnetic effects of current have numerous applications, including the functioning of electric motors, generators, transformers, and electromagnets. For example, in electric motors, the interaction between magnetic fields and current-carrying coils produces rotational motion, while transformers rely on changing magnetic fields to transfer electrical energy between circuits.
| 4. What is the significance of electromagnetic induction in the context of magnetic effects of current? | |
Ans. Electromagnetic induction is a fundamental concept related to the magnetic effects of current, discovered by Michael Faraday. It states that a changing magnetic field within a closed loop induces an electromotive force (EMF) in the wire. This principle is crucial for the operation of generators and inductors, where mechanical energy is converted into electrical energy or vice versa.
| 5. How does the direction of current affect the magnetic field produced? | |
Ans. The direction of the current significantly affects the orientation of the magnetic field produced. According to the right-hand rule, if the direction of the current changes, the direction of the magnetic field also reverses. This means that by altering the current direction in a coil or wire, one can control the magnetic field's orientation, which is essential in devices like relays and switches.
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