Q. What is the magnetic field inside a long straight conductor carrying a current I?
A.
0
B.
μ₀I/2πr
C.
μ₀I/4πr
D.
μ₀I/πr
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Solution
Using Ampere's Law, B = μ₀I/2πr for a long straight conductor.
Correct Answer: B — μ₀I/2πr
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Q. What is the magnetic field inside a long straight conductor carrying current I?
A.
0
B.
μ₀I/2πr
C.
μ₀I/4πr
D.
μ₀I/πr
Show solution
Solution
Using Ampere's Law, B = μ₀I/2πr for a long straight conductor.
Correct Answer: B — μ₀I/2πr
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Q. What is the magnetic field inside a long, ideal solenoid carrying current I?
A.
Zero
B.
μ₀I
C.
μ₀I/n
D.
μ₀nI
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Solution
The magnetic field inside a long, ideal solenoid is given by B = μ₀nI, where n is the number of turns per unit length.
Correct Answer: D — μ₀nI
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Q. What is the magnetic field inside a long, ideal solenoid carrying current?
A.
Zero
B.
Uniform and parallel
C.
Concentric circles
D.
Decreasing
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Solution
The magnetic field inside a long, ideal solenoid is uniform and parallel to the axis of the solenoid.
Correct Answer: B — Uniform and parallel
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Q. What is the magnetic field inside a long, ideal solenoid with n turns per unit length carrying a current I?
A.
B = μ₀nI
B.
B = μ₀I/n
C.
B = nI/μ₀
D.
B = μ₀I
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Solution
The magnetic field inside an ideal solenoid is given by B = μ₀nI, where n is the number of turns per unit length.
Correct Answer: A — B = μ₀nI
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Q. What is the magnetic field inside a long, ideal solenoid?
A.
Zero
B.
Uniform and parallel
C.
Concentric circles
D.
Diverging lines
Show solution
Solution
The magnetic field inside a long, ideal solenoid is uniform and parallel.
Correct Answer: B — Uniform and parallel
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Q. What is the magnetic field inside a long, straight solenoid carrying current I?
A.
0
B.
μ₀I
C.
μ₀nI
D.
μ₀nI/2
Show solution
Solution
The magnetic field inside a long, straight solenoid is given by B = μ₀nI, where n is the number of turns per unit length and μ₀ is the permeability of free space.
Correct Answer: C — μ₀nI
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Q. What is the magnetic field inside a long, straight solenoid carrying current?
A.
Zero
B.
Uniform and parallel to the axis
C.
Varies with distance
D.
Concentric circles
Show solution
Solution
The magnetic field inside a long, straight solenoid is uniform and parallel to the axis of the solenoid, given by B = μ₀nI, where n is the number of turns per unit length.
Correct Answer: B — Uniform and parallel to the axis
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Q. What is the magnetic field inside a solenoid carrying current I with n turns per unit length?
A.
μ₀nI
B.
μ₀I/n
C.
μ₀I
D.
μ₀nI/2
Show solution
Solution
The magnetic field inside a long solenoid is given by B = μ₀nI.
Correct Answer: A — μ₀nI
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Q. What is the magnetic field strength at the center of a square loop of side a carrying a current I?
A.
(μ₀I)/(2a)
B.
(μ₀I)/(4a)
C.
(μ₀I)/(√2a)
D.
(μ₀I)/(8a)
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Solution
The magnetic field at the center of a square loop is given by B = (μ₀I)/(√2a).
Correct Answer: C — (μ₀I)/(√2a)
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Q. What is the magnification produced by a concave lens if the object distance is 20 cm and the image distance is -10 cm?
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Solution
Magnification m = -v/u = -(-10)/20 = 0.5.
Correct Answer: A — 0.5
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Q. What is the magnification produced by a concave mirror if the object is placed at a distance of 15 cm and the image is formed at 5 cm?
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Solution
Magnification (m) = -v/u = -(-5)/(-15) = 1/3. Therefore, the magnification is 3.
Correct Answer: C — 3
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Q. What is the magnification produced by a convex lens if the object is placed at twice the focal length?
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Solution
Magnification (m) = v/u. For an object at 2f, the image distance v = 2f, so m = 2f/(2f) = 1.
Correct Answer: A — 1
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Q. What is the magnification produced by a lens if the object distance is 15 cm and the image distance is 30 cm?
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Solution
Magnification (m) = image distance/object distance = 30/15 = 2.
Correct Answer: C — 2
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Q. What is the magnification produced by a lens if the object distance is 15 cm and the image distance is 45 cm?
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Solution
Magnification (m) = image distance/object distance = 45/15 = 3.
Correct Answer: C — 3
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Q. What is the magnification produced by a lens if the object distance is 20 cm and the image distance is 10 cm?
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Solution
Magnification (m) = -v/u = -10/20 = 0.5, but since we consider absolute value, m = 2.
Correct Answer: C — 2
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Q. What is the magnification produced by a lens if the object distance is 25 cm and the image distance is 50 cm?
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Solution
Magnification (m) = -v/u = -50/25 = -2. The absolute value indicates the image is twice the size of the object.
Correct Answer: C — 2
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Q. What is the main advantage of using a potentiometer over a voltmeter?
A.
It is cheaper.
B.
It provides more accurate measurements.
C.
It is easier to use.
D.
It can measure AC voltages.
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Solution
A potentiometer provides more accurate measurements because it measures voltage by balancing rather than drawing current from the circuit.
Correct Answer: B — It provides more accurate measurements.
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Q. What is the main advantage of using a Wheatstone bridge in measurements?
A.
It is very fast
B.
It provides high accuracy
C.
It is very simple
D.
It requires no power supply
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Solution
The Wheatstone bridge is known for providing high accuracy in measuring unknown resistances.
Correct Answer: B — It provides high accuracy
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Q. What is the main advantage of using a Wheatstone bridge?
A.
It is simple to construct
B.
It provides high accuracy in measurement
C.
It can measure both AC and DC
D.
It is portable
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Solution
The Wheatstone bridge is known for its high accuracy in measuring unknown resistances.
Correct Answer: B — It provides high accuracy in measurement
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Q. What is the main application of a Wheatstone bridge?
A.
Measuring capacitance
B.
Measuring inductance
C.
Measuring resistance
D.
Measuring voltage
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Solution
The primary application of a Wheatstone bridge is to measure unknown resistances.
Correct Answer: C — Measuring resistance
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Q. What is the main application of nuclear fusion?
A.
Nuclear power plants
B.
Atomic bombs
C.
Hydrogen bombs
D.
Medical imaging
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Solution
Nuclear fusion is the process that powers hydrogen bombs and is also the process that fuels stars, including the sun.
Correct Answer: C — Hydrogen bombs
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Q. What is the main characteristic of a black body?
A.
It reflects all incident light
B.
It absorbs all incident light
C.
It emits light only at high temperatures
D.
It emits light only at low temperatures
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Solution
A black body is characterized by its ability to absorb all incident light, regardless of frequency or angle of incidence.
Correct Answer: B — It absorbs all incident light
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Q. What is the main difference between alpha and beta radiation?
A.
Charge
B.
Mass
C.
Speed
D.
Penetrating power
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Solution
Alpha particles have a much greater mass than beta particles, which are electrons or positrons.
Correct Answer: B — Mass
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Q. What is the main difference between classical and quantum mechanics?
A.
Determinism vs. probability
B.
Energy conservation
C.
Force laws
D.
Motion equations
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Solution
The main difference is that classical mechanics is deterministic, while quantum mechanics incorporates probability.
Correct Answer: A — Determinism vs. probability
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Q. What is the main difference between diffraction and interference?
A.
Diffraction involves multiple sources, interference does not
B.
Interference involves multiple sources, diffraction does not
C.
Diffraction occurs with sound waves only
D.
Interference occurs with light waves only
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Solution
Interference involves the superposition of waves from multiple sources, while diffraction is the spreading of waves when they encounter an obstacle or aperture.
Correct Answer: B — Interference involves multiple sources, diffraction does not
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Q. What is the main difference between nuclear fission and nuclear fusion?
A.
Fission combines nuclei, fusion splits them
B.
Fission splits nuclei, fusion combines them
C.
Fission occurs in stars, fusion occurs in reactors
D.
Fission is safer than fusion
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Solution
Nuclear fission involves the splitting of a heavy nucleus into smaller nuclei, while nuclear fusion involves the combining of light nuclei to form a heavier nucleus.
Correct Answer: B — Fission splits nuclei, fusion combines them
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Q. What is the main difference between nuclear fusion and nuclear fission?
A.
Fusion combines nuclei, fission splits them
B.
Fusion splits nuclei, fission combines them
C.
Fusion occurs in stars, fission occurs in reactors
D.
Both are the same process
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Solution
The main difference is that nuclear fusion combines light nuclei to form a heavier nucleus, while nuclear fission splits a heavy nucleus into lighter nuclei.
Correct Answer: A — Fusion combines nuclei, fission splits them
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Q. What is the main mechanism of heat transfer in liquids and gases?
A.
Conduction
B.
Convection
C.
Radiation
D.
Insulation
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Solution
Convection is the primary mechanism of heat transfer in liquids and gases due to the movement of the fluid.
Correct Answer: B — Convection
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Q. What is the main mechanism of heat transfer in liquids?
A.
Conduction
B.
Convection
C.
Radiation
D.
Insulation
Show solution
Solution
In liquids, convection is the main mechanism of heat transfer, as the fluid moves and carries heat with it.
Correct Answer: B — Convection
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