Hello,Welcome to StudentBro.
Hello,Welcome to StudentBro.
Hello,Welcome to StudentBro.
The chapter Magnetic Effects of Current is a vital part of NEET Physics under electromagnetism. It explains how electric current produces a magnetic field and how these fields interact with currents and magnets.
Understanding this chapter is crucial for NEET aspirants because it covers conceptual physics, derivations, and numericals related to magnetic fields, force, torque, and electromagnetic devices.
StudentBro notes provide exam-focused explanations, formulas, and solved examples for mastery.
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1. Vectors |
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2. Units and Measurements |
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3. Motion In a Straight Line |
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4. Motion In A Plane |
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5. Laws of Motion |
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6. Friction |
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7. Work, Energy and Power |
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8. System Of Particles and Rotational Motion |
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9. Gravitation |
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10. Elasticity |
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11. Surface Tension |
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12. Mechanical Properties of Fluids |
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13. Thermal Properties of Matter |
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14. Kinetic Theory |
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15. Thermodynamics |
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16. Transmission of Heat |
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17. Simple Harmonic Motion |
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18. Wave and Sound |
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19. Current Electricity |
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20. Heating & Chemical Effects of Current |
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21. Magnetic Effect of Current |
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22. Magnetism And Matter |
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23. Electromagnetic Induction |
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24. Alternating Current |
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25. Dual Nature Of Radiation And Matter |
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26. Atomic And Nuclear Physics |
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27. Semiconductor Electronics |
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28. Communication |
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29. Ray Optics And Optical Instruments |
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30. Wave Optics |
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31. Universe |
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32. Physics Formula PDF for Entrance Exam |
Definition: A magnetic field is a region around a current-carrying conductor where magnetic forces can be detected.
Right-Hand Rule: Direction of magnetic field lines around a straight conductor is given by curling the fingers of the right hand around the conductor with thumb along current direction.
NEET questions often involve drawing field lines and determining field direction.
Definition: Magnetic field dB at a point due to a small element of current is proportional to current and length of element, inversely proportional to square of distance.
Formula: dB = (μ₀/4π) * (I dl × r̂) / r²
Used to calculate magnetic field due to straight wire, circular loop, and solenoid.
NEET numericals may ask magnetic field strength at the center of a current loop or along the axis of a solenoid.
Formula: B = μ₀ I / 2πr
r = perpendicular distance from wire
I = current
NEET often asks magnetic field around long straight wires and circular loops.
Definition: A current-carrying conductor in a magnetic field experiences a force perpendicular to both the current and field.
Formula: F = B I L sinθ
B = magnetic field strength
I = current
L = length of conductor in field
θ = angle between current and magnetic field
Right-Hand Rule for Force (Fleming’s Left Hand Rule):
Thumb = force
Forefinger = magnetic field
Middle finger = current
NEET questions often involve calculating force, direction, or motion of a conductor.
A rectangular current loop in a uniform magnetic field experiences torque given by: τ = B I A sinθ
A = area of loop
θ = angle between normal to loop and field
Principle behind electric motors and galvanometers.
NEET numericals may involve torque and mechanical work on loops.
Force on moving charge: F = q v B sinθ
v = velocity of charge
θ = angle between velocity and magnetic field
Circular motion: Force acts as centripetal force causing circular trajectory
NEET questions often combine velocity, charge, magnetic field, and radius of curvature.
Statement: Line integral of magnetic field around a closed loop = μ₀ × net current enclosed
Formula: ∮ B · dl = μ₀ I_enclosed
Used to calculate field inside solenoids and toroids
NEET conceptual questions may include derivation of field strength and applications.
Electric Motors: Conversion of electrical energy into mechanical energy
Galvanometers: Measure small currents using torque on a loop
Electromagnets: Current produces strong magnetic field for lifting metals
Magnetic Levitation: Trains using magnetic fields
Deflection of Charged Particles: Cathode ray tubes and particle accelerators
NEET may ask conceptual and numerical problems based on these applications.
Memorize formulas for magnetic field, force, torque, and Biot-Savart law
Practice numericals on force on conductor, field due to wire, and torque on loops
Understand right-hand rules and Fleming’s left-hand rule for field and force direction
Relate theory to applications like motors, galvanometers, and electromagnets
Solve conceptual questions on field lines, direction, and magnetic effect
StudentBro notes include diagrams and solved examples to visualize current, fields, and forces clearly.
Covers magnetic field, Biot-Savart law, Ampere’s law, force on current-carrying conductors, torque, and applications
Includes step-by-step derivations, solved numericals, and practical examples
Structured for easy revision and conceptual clarity
Focused on NEET syllabus and high-yield questions
These notes ensure aspirants can confidently tackle magnetic effects of current questions in NEET exams.
The chapter Magnetic Effects of Current is a crucial part of NEET Physics under electromagnetism. Mastery of Biot-Savart law, Ampere’s law, force on conductors, torque, and applications is vital for solving both conceptual and numerical problems.
StudentBro NEET Physics notes provide structured, clear, and exam-focused guidance, enabling aspirants to confidently solve magnetic effects of current questions and excel in NEET exams.
