In law of linear density, the fundamenta...

In law of linear density, the fundamental frequency of vibrating string is

Inversely proportional to linear density of the string

Inversely proportional ot square root of mass per unit length of the string

Directly proportional to linear density of the string

Directly proportional to square root of lineat density of the string

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

SEMICONDUCTORS
NIKITA PUBLICATION|Exercise MCQS|350 Videos
SURFACE TENSION
NIKITA PUBLICATION|Exercise Multiple Choice Questions (Question Given in MHT-CET )|31 Videos

Similar Questions

Explore conceptually related problems

In law of tension, the fundamental frequency of vibrating string is

In law of length , the fundamental frequency of vibrating string is

The lowest frequency of the vibrating string is

The fundamental frequency of a vibrating organ pipe is 200Hz

For a constant vibrating length, density of the material and tension in the string the fundamental frequency of the vibrating stringis

The fundamental frequency of a string is proportional to

The mass suspended from the stretched string of a sonometer is 4 kg and the linear mass density of string 4 xx 10^(-3) kg m^(-1) . If the length of the vibrating string is 100 cm , arrange the following steps in a sequential order to find the frequency of the tuning fork used for the experiment . (A) The fundamental frequency of the vibratinng string is , n = (1)/(2l) sqrt((T)/(m)) . (B) Get the value of length of the string (l) , and linear mass density (m) of the string from the data in the problem . (C) Calculate the tension in the string using , T = mg . (D) Substitute the appropriate values in n = (1)/(2l) sqrt((T)/(m)) and find the value of 'n' .

The harmonics that accompanied with the fundamental frequency of a vibrating stretched string are

A wire of length 2.00 m is stretched to a tension of 160 N. If the fundamental frequency of vibration is 100 Hz, find its linear mass density.

NIKITA PUBLICATION-STATIONARY WAVES -MCQs

In law of length , the fundamental frequency of vibrating string is
Text Solution
|
In law of tension, the fundamental frequency of vibrating string is
Text Solution
|
In law of linear density, the fundamental frequency of vibrating strin...
Text Solution
|
For a constant vibrating length, density of the material and tension i...
Text Solution
|
The difference between two successive odd harmonics of vibrating strin...
Text Solution
|
Two identical wires of different materials are stretched by the same ...
Text Solution
|
A sitar wire is replaced by another wire of same length and material b...
Text Solution
|
A sonometer wire is generally mounted over a large hollow sound box. T...
Text Solution
|
A sonometer is plucked at 1/4 of its length . The most prominent would...
Text Solution
|
A brick hung a somometer wire . If the brick is immersed in oil then i...
Text Solution
|
To raise the pitch of a stringed musical instrument the player can
Text Solution
|
If the tension of a string is doubled, the fundamental frequency chang...
Text Solution
|
In the fundamental mode of vibration on a stretched string, the number...
Text Solution
|
The transverse displacement of a string clamped at its both ends is gi...
Text Solution
|
A standing wave having 3 nodes and 2 antinodes are formed between two ...
Text Solution
|
In the third of vibrations of the string, the distance between extrem...
Text Solution
|
Four wires of identical lengths, diameters and materials are stretched...
Text Solution
|
A wire having a linear density 0.1 kg//m is kept under a tension of 49...
Text Solution
|
The speed of longitudinal waves in a thin brass rod is 3480 m/s . If ...
Text Solution
|
The tension in a wire is decreased by 19% The percentage decrease in...
Text Solution
|