NEET Exam  >  NEET Notes  >  Physics Class 11  >  Important Formulas: Sound Waves

Important Sound Waves Formulas for JEE and NEET

Download, print and study this document offline
Please wait while the PDF view is loading
 Page 1


Important Formulae 
1.  Wave Speed 
  Speed of longitudinal wave 
     
E
v ?
?
 
  (a) In solids, E = Y = Young's modulus of elasticity 
     
Y
v ?
?
 
  (b) In liquids, E = B = Bulk modulus of elasticity 
     
B
v ?
?
 
  (c) In gases, according to Newton, 
   E = B
T
 = Isothermal bulk modulus of elasticity = p 
   
p
v ?
?
 
  But results did not match with this formula. Laplace made correction in it. According to him, 
  E = B
S
 = Adiabatic bulk modulus of elasticity = ? ? 
     
p RT kT
v
Mm
? ? ?
? ? ?
?
 
2.  Effect of Temperature, Pressure and Relative Humidity in Speed of Sound in Air (or in a Gas) 
  (i) With temperature v ? T 
(ii) With pressure Pressure has no effect on speed of sound as long as temperature remains 
constant.  
(iii) With relative humidity With increase in relative humidity in air, density decreases. Hence, 
speed of sound increases. 
3.  Sound Level (L) 
   
10
0
l
L 10log
l
? (in dB) 
Here, I
0
 = intensity of minimum audible sound = 10
-12
 W m
-2
. While comparing loudness of two 
sounds we may write, 
   
2
2 1 10
1
l
L L 10log
l
?? 
  In case of point source, 
2
21
2
12
lr 1
l or
r l r
??
??
??
??
 
Page 2


Important Formulae 
1.  Wave Speed 
  Speed of longitudinal wave 
     
E
v ?
?
 
  (a) In solids, E = Y = Young's modulus of elasticity 
     
Y
v ?
?
 
  (b) In liquids, E = B = Bulk modulus of elasticity 
     
B
v ?
?
 
  (c) In gases, according to Newton, 
   E = B
T
 = Isothermal bulk modulus of elasticity = p 
   
p
v ?
?
 
  But results did not match with this formula. Laplace made correction in it. According to him, 
  E = B
S
 = Adiabatic bulk modulus of elasticity = ? ? 
     
p RT kT
v
Mm
? ? ?
? ? ?
?
 
2.  Effect of Temperature, Pressure and Relative Humidity in Speed of Sound in Air (or in a Gas) 
  (i) With temperature v ? T 
(ii) With pressure Pressure has no effect on speed of sound as long as temperature remains 
constant.  
(iii) With relative humidity With increase in relative humidity in air, density decreases. Hence, 
speed of sound increases. 
3.  Sound Level (L) 
   
10
0
l
L 10log
l
? (in dB) 
Here, I
0
 = intensity of minimum audible sound = 10
-12
 W m
-2
. While comparing loudness of two 
sounds we may write, 
   
2
2 1 10
1
l
L L 10log
l
?? 
  In case of point source, 
2
21
2
12
lr 1
l or
r l r
??
??
??
??
 
  In case of line source, 
21
12
lr 1
l or
r l r
??
??
??
??
 
4.  Doppler Effect In Sound 
     
m0
ms
v v v
f ' f
v v v
?? ??
?
??
??
??
 
5. Beats 
   f
b
= f
1
 - f
2
 (f
1
 > f
2
) 
6.  Oscillations of Stretched Wire or Organ Pipes  
  (i) Open organ pipe 
  Fundamental tone or first harmonic (n = 1) 
 
  First overtone or second harmonic (n = 2) 
 
  Second overtone or third harmonic (n = 3) 
 
   
v
fn
2l
??
?
??
??
. Here, n = 1,2, 3...... 
  Even and odd both harmonics are obtained. Here, v = speed of sound in air. 
  v will be either given in the question, otherwise calculate from 
RT
v
M
?
? 
  (ii) Closed organ pipe 
  Fundamental tone or first harmonic (n = 1) 
Page 3


Important Formulae 
1.  Wave Speed 
  Speed of longitudinal wave 
     
E
v ?
?
 
  (a) In solids, E = Y = Young's modulus of elasticity 
     
Y
v ?
?
 
  (b) In liquids, E = B = Bulk modulus of elasticity 
     
B
v ?
?
 
  (c) In gases, according to Newton, 
   E = B
T
 = Isothermal bulk modulus of elasticity = p 
   
p
v ?
?
 
  But results did not match with this formula. Laplace made correction in it. According to him, 
  E = B
S
 = Adiabatic bulk modulus of elasticity = ? ? 
     
p RT kT
v
Mm
? ? ?
? ? ?
?
 
2.  Effect of Temperature, Pressure and Relative Humidity in Speed of Sound in Air (or in a Gas) 
  (i) With temperature v ? T 
(ii) With pressure Pressure has no effect on speed of sound as long as temperature remains 
constant.  
(iii) With relative humidity With increase in relative humidity in air, density decreases. Hence, 
speed of sound increases. 
3.  Sound Level (L) 
   
10
0
l
L 10log
l
? (in dB) 
Here, I
0
 = intensity of minimum audible sound = 10
-12
 W m
-2
. While comparing loudness of two 
sounds we may write, 
   
2
2 1 10
1
l
L L 10log
l
?? 
  In case of point source, 
2
21
2
12
lr 1
l or
r l r
??
??
??
??
 
  In case of line source, 
21
12
lr 1
l or
r l r
??
??
??
??
 
4.  Doppler Effect In Sound 
     
m0
ms
v v v
f ' f
v v v
?? ??
?
??
??
??
 
5. Beats 
   f
b
= f
1
 - f
2
 (f
1
 > f
2
) 
6.  Oscillations of Stretched Wire or Organ Pipes  
  (i) Open organ pipe 
  Fundamental tone or first harmonic (n = 1) 
 
  First overtone or second harmonic (n = 2) 
 
  Second overtone or third harmonic (n = 3) 
 
   
v
fn
2l
??
?
??
??
. Here, n = 1,2, 3...... 
  Even and odd both harmonics are obtained. Here, v = speed of sound in air. 
  v will be either given in the question, otherwise calculate from 
RT
v
M
?
? 
  (ii) Closed organ pipe 
  Fundamental tone or first harmonic (n = 1) 
 
  First overtone or third harmonic (n = 3) 
 
  Second overtone or fifth harmonic (n = 5) 
 
  
v
fn
4l
??
?
??
??
 . Here, n = 1,3,5......  
(a) Stationary transverse waves are formed in stretched wire and longitudinal stationary waves are 
formed in organ pipes. 
(b) Open end of pipe is displacement antinode, but pressure and density nodes. Closed end of pipe 
is displacement node, but pressure and density antinodes. 
  (c) Laplace correction e =0.6r (in closed pipe) and 2e = 12 r (in open pipe) 
  Hence, 
v
fn
2(l 12r)
??
?
??
?
??
 (in open pipe) and 
v
fn
4(l 0.6r)
??
?
??
?
??
 (in closed pipe) 
(iii) If an open pipe and a closed pipe are of same lengths then fundamental frequency of open 
pipe is two times the fundamental frequency of closed pipe. 
Read More
97 videos|378 docs|103 tests

Top Courses for NEET

97 videos|378 docs|103 tests
Download as PDF
Explore Courses for NEET exam

Top Courses for NEET

Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev
Related Searches

pdf

,

video lectures

,

Free

,

Summary

,

Important Sound Waves Formulas for JEE and NEET

,

ppt

,

Important questions

,

mock tests for examination

,

Viva Questions

,

Sample Paper

,

Important Sound Waves Formulas for JEE and NEET

,

practice quizzes

,

Objective type Questions

,

Previous Year Questions with Solutions

,

Important Sound Waves Formulas for JEE and NEET

,

Exam

,

MCQs

,

Extra Questions

,

Semester Notes

,

past year papers

,

shortcuts and tricks

,

study material

;