Simple Harmonic Motion
Q. A simple harmonic oscillator has a spring constant of 200 N/m and a mass of 2 kg. What is its period?
A.
0.5 s
B.
1 s
C.
2 s
D.
4 s
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Solution
T = 2π√(m/k) = 2π√(2/200) = 1 s.
Correct Answer: B — 1 s
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Q. A simple harmonic oscillator has a total energy E. If the amplitude is halved, what will be the new total energy?
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Solution
The total energy E is proportional to the square of the amplitude. If the amplitude is halved, the new energy will be E/4.
Correct Answer: A — E/4
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Q. A simple harmonic oscillator has a total energy of 50 J and an amplitude of 10 cm. What is the spring constant?
A.
200 N/m
B.
500 N/m
C.
1000 N/m
D.
2000 N/m
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Solution
Total energy E = (1/2)kA^2. 50 = (1/2)k(0.1^2) => k = 500 N/m.
Correct Answer: B — 500 N/m
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Q. A simple harmonic oscillator has a total energy of 50 J. If the amplitude is doubled, what will be the new total energy?
A.
50 J
B.
100 J
C.
200 J
D.
400 J
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Solution
Total energy in SHM is proportional to the square of the amplitude. If amplitude is doubled, energy increases by a factor of 4.
Correct Answer: C — 200 J
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Q. A simple harmonic oscillator has an amplitude A and a maximum speed v_max. What is the relationship between v_max and A?
A.
v_max = Aω
B.
v_max = A/ω
C.
v_max = A²ω
D.
v_max = A/2ω
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Solution
The maximum speed v_max of a simple harmonic oscillator is given by v_max = Aω, where ω is the angular frequency.
Correct Answer: A — v_max = Aω
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Q. A simple harmonic oscillator has an amplitude A. What is the maximum speed of the oscillator?
A.
Aω
B.
A/ω
C.
A²ω
D.
A/2ω
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Solution
The maximum speed (v_max) of a simple harmonic oscillator is given by v_max = Aω, where ω is the angular frequency.
Correct Answer: A — Aω
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Q. A simple harmonic oscillator has an amplitude of 5 cm. What is the maximum displacement from the mean position?
A.
0 cm
B.
2.5 cm
C.
5 cm
D.
10 cm
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Solution
The maximum displacement in simple harmonic motion is equal to the amplitude, which is 5 cm.
Correct Answer: C — 5 cm
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Q. If a simple harmonic oscillator has a frequency of 1 Hz, what is the time period?
A.
0.5 s
B.
1 s
C.
2 s
D.
4 s
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Solution
Time period (T) is the reciprocal of frequency (f). T = 1/f = 1/1 = 1 s.
Correct Answer: B — 1 s
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Q. If a simple harmonic oscillator has a maximum displacement of 5 cm, what is the amplitude?
A.
2.5 cm
B.
5 cm
C.
10 cm
D.
0 cm
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Solution
The amplitude of a simple harmonic oscillator is defined as the maximum displacement from the equilibrium position, which is 5 cm in this case.
Correct Answer: B — 5 cm
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Q. If a simple harmonic oscillator has a total energy E, what is the kinetic energy when the displacement is half of the amplitude?
A.
E/4
B.
E/2
C.
3E/4
D.
E
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Solution
The total energy E is conserved. When the displacement is half the amplitude, the potential energy is (1/2)E, so the kinetic energy is E - (1/2)E = (1/2)E.
Correct Answer: C — 3E/4
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Q. If the amplitude of a simple harmonic motion is doubled, how does the maximum velocity change?
A.
It doubles
B.
It quadruples
C.
It remains the same
D.
It halves
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Solution
Maximum velocity V_max = Aω. If A is doubled, V_max also doubles.
Correct Answer: A — It doubles
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Q. If the amplitude of a simple harmonic motion is doubled, how does the total energy change?
A.
Remains the same
B.
Doubles
C.
Quadruples
D.
Halves
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Solution
The total energy E in SHM is given by E = (1/2)kA². If A is doubled, E becomes (1/2)k(2A)² = 4(1/2)kA², which is quadrupled.
Correct Answer: C — Quadruples
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Q. If the amplitude of a simple harmonic motion is halved, how does the maximum velocity change?
A.
Halved
B.
Doubled
C.
Remains the same
D.
Quadrupled
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Solution
Maximum velocity V_max = ωA. If A is halved, V_max is also halved.
Correct Answer: A — Halved
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Q. If the amplitude of a simple harmonic oscillator is doubled, how does the total energy change?
A.
Remains the same
B.
Doubles
C.
Quadruples
D.
Halves
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Solution
The total energy in simple harmonic motion is proportional to the square of the amplitude. If amplitude is doubled, energy increases by a factor of 2^2 = 4.
Correct Answer: C — Quadruples
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Q. If the amplitude of a simple harmonic oscillator is halved, how does the total energy change?
A.
Remains the same
B.
Halved
C.
Doubled
D.
Quadrupled
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Solution
The total energy in SHM is proportional to the square of the amplitude. If amplitude is halved, energy is reduced to (1/2)^2 = 1/4, which is halved.
Correct Answer: B — Halved
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Q. If the angular frequency of a simple harmonic motion is 5 rad/s, what is the time period?
A.
0.2 s
B.
0.4 s
C.
1.25 s
D.
2 s
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Solution
The time period T is given by T = 2π/ω. Therefore, T = 2π/5 = 0.4 s.
Correct Answer: A — 0.2 s
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Q. If the frequency of a simple harmonic motion is doubled, what happens to the time period?
A.
It doubles
B.
It halves
C.
It remains the same
D.
It quadruples
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Solution
The time period T is inversely proportional to the frequency f. If the frequency is doubled, the time period halves.
Correct Answer: B — It halves
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Q. If the frequency of a simple harmonic oscillator is halved, what happens to the period?
A.
It doubles
B.
It halves
C.
It remains the same
D.
It quadruples
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Solution
Period T = 1/f, if frequency is halved, period doubles.
Correct Answer: A — It doubles
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Q. If the mass of a simple harmonic oscillator is doubled while keeping the spring constant the same, how does the period change?
A.
Increases
B.
Decreases
C.
Remains the same
D.
Cannot be determined
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Solution
The period T = 2π√(m/k). If m is doubled, T increases.
Correct Answer: A — Increases
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Q. If the total energy of a simple harmonic oscillator is 50 J and the mass is 2 kg, what is the maximum speed of the mass?
A.
5 m/s
B.
10 m/s
C.
15 m/s
D.
20 m/s
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Solution
Total energy (E) = (1/2)m(v_max)^2. Solving for v_max gives v_max = sqrt(2E/m) = sqrt(2*50/2) = 10 m/s.
Correct Answer: B — 10 m/s
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Q. In a simple harmonic motion, if the amplitude is halved, how does the total energy change?
A.
Remains the same
B.
Halves
C.
Doubles
D.
Quadruples
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Solution
Total energy E is proportional to the square of the amplitude. If amplitude is halved, energy is reduced to 1/4, hence it halves.
Correct Answer: B — Halves
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Q. In a simple harmonic motion, if the amplitude is increased, what happens to the total energy of the system?
A.
It decreases
B.
It remains the same
C.
It increases
D.
It becomes zero
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Solution
The total energy in simple harmonic motion is proportional to the square of the amplitude. If the amplitude increases, the total energy increases.
Correct Answer: C — It increases
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Q. In a simple harmonic motion, if the displacement is given by x(t) = A cos(ωt + φ), what is the phase constant φ?
A.
0
B.
π/2
C.
π
D.
Depends on initial conditions
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Solution
The phase constant φ depends on the initial conditions of the motion, such as the initial position and velocity.
Correct Answer: D — Depends on initial conditions
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Q. In a simple harmonic motion, if the mass is increased while keeping the spring constant constant, what happens to the period?
A.
Increases
B.
Decreases
C.
Remains the same
D.
Doubles
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Solution
The period (T) increases with mass (T = 2π√(m/k)).
Correct Answer: A — Increases
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Q. In a simple harmonic motion, if the mass is increased, what happens to the period?
A.
Increases
B.
Decreases
C.
Remains the same
D.
Depends on the spring constant
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Solution
The period T is given by T = 2π√(m/k). If m increases, T increases.
Correct Answer: A — Increases
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Q. In a simple harmonic motion, the phase difference between displacement and acceleration is:
A.
0 degrees
B.
90 degrees
C.
180 degrees
D.
270 degrees
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Solution
Acceleration is always opposite to displacement in SHM, hence 180 degrees.
Correct Answer: C — 180 degrees
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Q. In a simple harmonic motion, the restoring force is directly proportional to what?
A.
Displacement
B.
Velocity
C.
Acceleration
D.
Mass
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Solution
In SHM, the restoring force is directly proportional to the displacement from the mean position.
Correct Answer: A — Displacement
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Q. In a simple harmonic motion, the restoring force is directly proportional to which of the following?
A.
Displacement
B.
Velocity
C.
Acceleration
D.
Mass
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Solution
In simple harmonic motion, the restoring force is directly proportional to the displacement from the mean position.
Correct Answer: A — Displacement
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Q. In a simple harmonic motion, the velocity is maximum at which point?
A.
Mean position
B.
Amplitude
C.
Equilibrium position
D.
None of the above
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Solution
The velocity is maximum at the mean position where the displacement is zero.
Correct Answer: A — Mean position
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Q. In a simple harmonic oscillator, if the mass is increased while keeping the spring constant the same, what happens to the period?
A.
Increases
B.
Decreases
C.
Remains the same
D.
Doubles
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Solution
The period T = 2π√(m/k) increases with an increase in mass (m).
Correct Answer: A — Increases
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