Oscillations and Waves-Displacement as a Function of Time (NEET (National Eligibility cum Medical Entrance Test) Physics): Questions 1 - 5 of 8

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Question number: 1

» Oscillations and Waves » Displacement as a Function of Time

MCQ▾

Question

A simple harmonic motion is represented by Equation . The amplitude of the S. H. M. is

Choices

Choice (4) Response

a.

A = 5 cm

b.

A = 15 cm

c.

A = 30 cm

d.

A = 10 cm

Question number: 2

» Oscillations and Waves » Displacement as a Function of Time

MCQ▾

Question

The amplitude of a particle executing SHM is 4 cm. At the mean position the speed of the particle is 16 cm/sec. The distance of the particle from the mean position at which the speed of the particle becomes Equation , will be

Choices

Choice (4) Response

a.

Equation

b.

Equation

c.

2 cm

d.

1cm

Question number: 3

» Oscillations and Waves » Displacement as a Function of Time

MCQ▾

Question

The displacement of a particle executing S. H. M is given by Equation meters.

The maximum speed of the particle and amplitude of the motion is,

Choices

Choice (4) Response

a.

100 m/s and 1.30 m

b.

260 m/sec and 0.65 m

c.

250 m/s and 0.65 m

d.

200 cm/sec, and 0.65 m

Question number: 4

» Oscillations and Waves » Displacement as a Function of Time

MCQ▾

Question

A particle is performing simple harmonic motion along x-axis with amplitude 4 cm and time period 1.2 sec. The minimum time taken by the particle to move from x = 2 cm to x =+ 4 cm and back again is given by,

Choices

Choice (4) Response

a.

0.2 sec

b.

0.6 sec

c.

0.4 sec

d.

0.3 sec

Question number: 5

» Oscillations and Waves » Displacement as a Function of Time

MCQ▾

Question

The amplitude of a particle executing SHM is 5.5 cm. At the mean position the speed of the particle is 20 cm/s. The distance of the particle from the mean position at which the speed of the particle becomes Equation , will be

Choices

Choice (4) Response

a.

Equation

b.

Equation

c.

2 cm

d.

5.46 cm

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