Chapter 16 – Wave Motion and Waves on a String

Sahay Sir > Question Answers > Cengage NEET by C.P Singh > Part 1 > Chapter 16 - Wave Motion and Waves on a String
A uniform rope of length 12m and mass 6kg hangs vertically from a rigid support. A block of mass 2kg is attached to the free end of the rope. A transverse pulse of wavelength 0.06m is produced at the lower end of the rope. What is the wavelength of the pulse when it reaches the top of the rope is
16
Sep
A uniform rope of length 12m and mass 6kg hangs vertically from a rigid support. A block of mass 2kg is attached to the free end of the rope. A transverse pulse of wavelength 0.06m is produced at the lower end of the rope. What is the wavelength of the pulse when it reaches the [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: Two simple harmonic motions A and B are given respectively by y1=asin(ωt+π/6) , y2=asin(ωt+3π/6) The maximum displacement of A will be ,
Both the strings , shown in figure are made of same material and have same cross – section. The pulleys are light. The wave speed in the string AB is v1 and in CD is v2. Then v1/v2 is
16
Sep
Both the strings , shown in figure are made of same material and have same cross – section. The pulleys are light. The wave speed in the string AB is v1 and in CD is v2. Then v1/v2 is Both the strings shown in figure are made of same material and have same cross - [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: Both the strings , shown in figure are made of same material and have same cross - section. The pulleys are light. The wave speed in the string AB is v1 and in CD is v2. Then v1/v2 is ,
Two wires one of copper and the other of zinc are stretched with tension 5000 g and 10000 g respectively. If the diametre of the zinc wire is twice that of the copper wire and the density of copper 1.3 times that of zinc, find the ratio of velocities of the transverse waves in the two wires.
16
Sep
Two wires one of copper and the other of zinc are stretched with tension 5000 g and 10000 g respectively. If the diametre of the zinc wire is twice that of the copper wire and the density of copper 1.3 times that of zinc, find the ratio of velocities of the transverse waves in the [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: Two simple harmonic motions A and B are given respectively by y1=asin(ωt+π/6) , y2=asin(ωt+3π/6) The maximum displacement of A will be ,
Two strings A and B made of same material are stretched by same tension. The radius of string A is double of the radius of B. A transverse wave travels on A with speed vA and on B with speed vB. The ratio vA/vB is
16
Sep
Two strings A and B made of same material are stretched by same tension. The radius of string A is double of the radius of B. A transverse wave travels on A with speed vA and on B with speed vB. The ratio vA/vB is Two simple harmonic motions A and B are given respectively [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: Two simple harmonic motions A and B are given respectively by y1=asin(ωt+π/6) , y2=asin(ωt+3π/6) The maximum displacement of A will be ,
Two simple harmonic motions A and B are given respectively by y1=asin(ωt+π/6), y2=asin(ωt+3π/6) The maximum displacement of A will be
16
Sep
Two simple harmonic motions A and B are given respectively by y1=asin(ωt+π/6), y2=asin(ωt+3π/6) The maximum displacement of A will be Two simple harmonic motions A and B are given respectively by y1=asin(ωt+π/6) y2=asin(ωt+3π/6) The maximum displacement of A will be September 16, 2020 Category: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: Two simple harmonic motions A and B are given respectively by y1=asin(ωt+π/6) , y2=asin(ωt+3π/6) The maximum displacement of A will be ,
A transverse sinusoidal wave moves along a string in the positive x-direction at a speed of 10m/s. The wavelength of the wave is 0.5m and its amplitude is 10cm. At a particular time t, the snap-shot of the wave is shown in figure. The velocity of point P when its displacement is 0.05 m is –
16
Sep
A transverse sinusoidal wave moves along a string in the positive x-direction at a speed of 10m/s. The wavelength of the wave is 0.5m and its amplitude is 10cm. At a particular time t, the snap-shot of the wave is shown in figure. The velocity of point P when its displacement is 0.05 m is [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: A transverse sinusoidal wave moves along a string in the positive x-direction at a speed of 10m/s. The wavelength of the wave is 0.5m and its amplitude is 10cm. At a particular time t , the snap-shot of the wave is shown in figure. The velocity of point P when its displacement is 0.05 m is - ,
The phase difference between two waves represented by y1=10^−6 sin [100t+(x/50)+0.5]m,y2=10^−6 cos [100t+(x/50)]m where x is expressed in metres and t is expressed in seconds, is approximately
16
Sep
The phase difference between two waves represented by y1=10^−6 sin [100t+(x/50)+0.5]m,y2=10^−6 cos [100t+(x/50)]m where x is expressed in metres and t is expressed in seconds, is approximately is approximately The phase difference between two waves represented by y1=10^−6 sin [100t+(x/50)+0.5]m y2=10^−6 cos [100t+(x/50)]m where x is expressed in metres and t is expressed in seconds [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: is approximately , The phase difference between two waves represented by y1=10^−6 sin [100t+(x/50)+0.5]m , y2=10^−6 cos [100t+(x/50)]m where x is expressed in metres and t is expressed in seconds ,
Two waves each of frequency 540 hz travel at a speed of 330mper sec if the source are in phase in the beginning the phase difference of the wave at a point 4m from one source and 4.4m from the other
16
Sep
Two waves each of frequency 540 hz travel at a speed of 330mper sec if the source are in phase in the beginning the phase difference of the wave at a point 4m from one source and 4.4m from the other Two waves each of frequency 540 hz travel at a speed of 330mper sec [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: Two waves each of frequency 540 hz travel at a speed of 330mper sec if the source are in phase in the beginning the phase difference of the wave at a point 4m from one source and 4.4m from the other ,
A transverse sinusoidal wave of amplitude a, wavelength λ and frequency f is travelling on a stretched string. The maximum speed of any point on the string is u/10, where n is the speed of propagation of the wave. If a =10^−3 m and v=10 m/s, then λ and f are given by.
16
Sep
A transverse sinusoidal wave of amplitude a, wavelength λ and frequency f is travelling on a stretched string. The maximum speed of any point on the string is u/10, where n is the speed of propagation of the wave. If a =10^−3 m and v=10 m/s, then λ and f are given by. A transverse [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: A transverse sinusoidal wave of amplitude a , then λ and f are given by. , wavelength λ and frequency f is travelling on a stretched string. The maximum speed of any point on the string is u/10 , where n is the speed of propagation of the wave. If a =10^−3 m and v=10 m/s ,
A wave travelling along the x-axis is described by the equation v(x,t)=0.005 cos (αx−βt). If the wavelength and the time period of the wave are 0.08m and 2.0s, respectively, then α and β in appropriate units are
16
Sep
A wave travelling along the x-axis is described by the equation v(x,t)=0.005 cos (αx−βt). If the wavelength and the time period of the wave are 0.08m and 2.0s, respectively, then α and β in appropriate units are A wave travelling along the x-axis is described by the equation v(x respectively t)=0.005 cos (αx−βt). If the [...]
Posted in: Cengage NEET by C.P Singh , Chapter 16 - Wave Motion and Waves on a String , Part 1 ,
Tags: A wave travelling along the x-axis is described by the equation v(x , respectively , t)=0.005 cos (αx−βt). If the wavelength and the time period of the wave are 0.08m and 2.0s , then α and β in appropriate units are ,