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NEET Exam  >  NEET Test  >  Physics Class 11  >  Test: Standing Waves - NEET MCQ

Standing Waves - Free MCQ Practice Test with solutions, NEET Physics


MCQ Practice Test & Solutions: Test: Standing Waves (5 Questions)

You can prepare effectively for NEET Physics Class 11 with this dedicated MCQ Practice Test (available with solutions) on the important topic of "Test: Standing Waves". These 5 questions have been designed by the experts with the latest curriculum of NEET 2026, to help you master the concept.

Test Highlights:

  • - Format: Multiple Choice Questions (MCQ)
  • - Duration: 5 minutes
  • - Number of Questions: 5

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Test: Standing Waves - Question 1
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A node is a point where there is always

Detailed Solution: Question 1

A node is a point along the medium of no displacement. The point is not displaced because destructive interference occurs at this point.

Test: Standing Waves - Question 2
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A cylindrical tube, open at both ends, has a fundamental frequency f in air. The tube is dipped vertically in water so that half of it is in water. The fundamental frequency of the air-column is now:

Detailed Solution: Question 2

As we know, f=v/2l
Now, it will act as one end and one end closed.
So, f0=v/2l’=v/4½=v/2l=f

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Test: Standing Waves - Question 3
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Fundamental note in open pipe (v= ν/2L) has _________ the frequency of the fundamental note in closed organ pipe (v= ν/4L).

Detailed Solution: Question 3

Let L be a length of the pipe,
The fundamental frequency of closed pipe is
v2​=ν​/4L                                         .....(i)
where ν is the speed of sound in air.
Fundamental frequency of open pipe of same length is
v​1=ν/2L​                                            .....(ii)
After dividing v1 with v2,
v1/v2= ν/2L/ ν​/4L
v1=2v2

Test: Standing Waves - Question 4
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Equation of longitudinal stationary waves in the pipe is

Test: Standing Waves - Question 5
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In an experiment to find the speed of waves in a rope, a standing wave pattern is established as shown in diagram below. The vibrating end of rope makes 90 vibrations per minute. The speed of the waves is
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Detailed Solution: Question 5

If there are exactly 90 vibrations in 60.0 seconds, then there is a frequency of 1.5 Hz. The diagram shows 1.5 waves in 6.0-meters of rope; thus, the wavelength is 4.0 meters. Now use the equation v=f*w to calculate the speed of the wave. Proper substitution yields 6.0 m/s.

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About this NEET Practice Test

This test contains 5 MCQs on Standing Waves with detailed solutions for each question. It is part of the Physics Class 11 course on EduRev, designed to align with the current NEET syllabus. Each solution explains not just the correct answer but also gives you an understanding of the topic — not just to attempt the question but also help you prepare for the exam with practice.

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If you found this Standing Waves MCQ Test helpful, you can further enhance your NEET preparation with in-depth courses on EduRev, for all the subjects and topics available in Physics Class 11 course. The course offers:
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