For a solid rod, the Young's modulus of elasticity is and density is . The velocity of longitudinal wave in the rod will be:
- A
- B
- C
- D
For a solid rod, the Young's modulus of elasticity is and density is . The velocity of longitudinal wave in the rod will be:
Correct answer:D
Standard Method
Given: Young's modulus and density .
Find: The velocity of longitudinal wave in the rod.
For a solid rod, the velocity of longitudinal waves is given by
Substituting the given values,
Therefore, the correct option is D.
Using elasticity relation
Given: The rod has Young's modulus and density .
Find: Speed of the longitudinal wave.
The speed of a longitudinal wave in a solid depends on the elastic property and inertia of the material. Hence,
Now evaluate the ratio first:
Taking square root,
Thus, the velocity of longitudinal wave in the rod is , so the correct option is D.
Using an incorrect wave-speed formula such as that for sound in gases is wrong because this is a solid rod problem. Use for longitudinal waves in solids.
Ignoring the power of during simplification gives a wrong order of magnitude. First compute and combine powers carefully to get .
Taking the square root incorrectly is a common error. Remember that , not .
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