QBManager

WAVES

172178 In a stationary wave all particles

1 vibrate in S.H.M. of same period and same amplitude.

2 vibrate in S.H.M. of different period and different amplitudes.

3 except at nodes vibrate in S.H.M. of same period but of different amplitudes.

4 except at nodes vibrate in S.H.M. of same period and same amplitude.

MHT-CET 2020

WAVES

172179 The correct statement about stationary wave is that

1 displacement at antinode is minimum

2 displacement at node is maximum

3 displacement at node is maximum and at antinode is zero

4 displacement at node is zero and at antinode is maximum

MHT-CET 2020

WAVES

172196 A standard wave pattern can be represented by an equation like.

1 $y(x . t)=2 A \sin k(k x-\omega t)$

2 $y(x . t)=A \sin (k x-\omega t)+A \cos (k x-\omega t)$

3 $y(x . t)=A \sin k x \operatorname{cox} \omega t$

4 $y(x . t)=A \sin (k x+\omega t)+A \cos (k x-\omega t)$

TS EAMCET (Medical)-02.05.2018

WAVES

172209 When a wave undergoes refraction?

1 Its frequency changes

2 Its amplitude changes

3 Its velocity changes

4 Both amplitude and frequency change

COMEDK 2017

WAVES

172210 The shape of wave front at a very large distance from source is

1 Circular

2 Spherical

3 Cylindrical

4 Plane

GUJCET 2017

WAVES

172178 In a stationary wave all particles

1 vibrate in S.H.M. of same period and same amplitude.

2 vibrate in S.H.M. of different period and different amplitudes.

3 except at nodes vibrate in S.H.M. of same period but of different amplitudes.

4 except at nodes vibrate in S.H.M. of same period and same amplitude.

MHT-CET 2020

WAVES

172179 The correct statement about stationary wave is that

1 displacement at antinode is minimum

2 displacement at node is maximum

3 displacement at node is maximum and at antinode is zero

4 displacement at node is zero and at antinode is maximum

MHT-CET 2020

WAVES

172196 A standard wave pattern can be represented by an equation like.

1 $y(x . t)=2 A \sin k(k x-\omega t)$

2 $y(x . t)=A \sin (k x-\omega t)+A \cos (k x-\omega t)$

3 $y(x . t)=A \sin k x \operatorname{cox} \omega t$

4 $y(x . t)=A \sin (k x+\omega t)+A \cos (k x-\omega t)$

TS EAMCET (Medical)-02.05.2018

WAVES

172209 When a wave undergoes refraction?

1 Its frequency changes

2 Its amplitude changes

3 Its velocity changes

4 Both amplitude and frequency change

COMEDK 2017

WAVES

172210 The shape of wave front at a very large distance from source is

1 Circular

2 Spherical

3 Cylindrical

4 Plane

GUJCET 2017

WAVES

172178 In a stationary wave all particles

1 vibrate in S.H.M. of same period and same amplitude.

2 vibrate in S.H.M. of different period and different amplitudes.

3 except at nodes vibrate in S.H.M. of same period but of different amplitudes.

4 except at nodes vibrate in S.H.M. of same period and same amplitude.

MHT-CET 2020

WAVES

172179 The correct statement about stationary wave is that

1 displacement at antinode is minimum

2 displacement at node is maximum

3 displacement at node is maximum and at antinode is zero

4 displacement at node is zero and at antinode is maximum

MHT-CET 2020

WAVES

172196 A standard wave pattern can be represented by an equation like.

1 $y(x . t)=2 A \sin k(k x-\omega t)$

2 $y(x . t)=A \sin (k x-\omega t)+A \cos (k x-\omega t)$

3 $y(x . t)=A \sin k x \operatorname{cox} \omega t$

4 $y(x . t)=A \sin (k x+\omega t)+A \cos (k x-\omega t)$

TS EAMCET (Medical)-02.05.2018

WAVES

172209 When a wave undergoes refraction?

1 Its frequency changes

2 Its amplitude changes

3 Its velocity changes

4 Both amplitude and frequency change

COMEDK 2017

WAVES

172210 The shape of wave front at a very large distance from source is

1 Circular

2 Spherical

3 Cylindrical

4 Plane

GUJCET 2017

WAVES

172178 In a stationary wave all particles

1 vibrate in S.H.M. of same period and same amplitude.

2 vibrate in S.H.M. of different period and different amplitudes.

3 except at nodes vibrate in S.H.M. of same period but of different amplitudes.

4 except at nodes vibrate in S.H.M. of same period and same amplitude.

MHT-CET 2020

WAVES

172179 The correct statement about stationary wave is that

1 displacement at antinode is minimum

2 displacement at node is maximum

3 displacement at node is maximum and at antinode is zero

4 displacement at node is zero and at antinode is maximum

MHT-CET 2020

WAVES

172196 A standard wave pattern can be represented by an equation like.

1 $y(x . t)=2 A \sin k(k x-\omega t)$

2 $y(x . t)=A \sin (k x-\omega t)+A \cos (k x-\omega t)$

3 $y(x . t)=A \sin k x \operatorname{cox} \omega t$

4 $y(x . t)=A \sin (k x+\omega t)+A \cos (k x-\omega t)$

TS EAMCET (Medical)-02.05.2018

WAVES

172209 When a wave undergoes refraction?

1 Its frequency changes

2 Its amplitude changes

3 Its velocity changes

4 Both amplitude and frequency change

COMEDK 2017

WAVES

172210 The shape of wave front at a very large distance from source is

1 Circular

2 Spherical

3 Cylindrical

4 Plane

GUJCET 2017

WAVES

172178 In a stationary wave all particles

1 vibrate in S.H.M. of same period and same amplitude.

2 vibrate in S.H.M. of different period and different amplitudes.

3 except at nodes vibrate in S.H.M. of same period but of different amplitudes.

4 except at nodes vibrate in S.H.M. of same period and same amplitude.

MHT-CET 2020

WAVES

172179 The correct statement about stationary wave is that

1 displacement at antinode is minimum

2 displacement at node is maximum

3 displacement at node is maximum and at antinode is zero

4 displacement at node is zero and at antinode is maximum

MHT-CET 2020

WAVES

172196 A standard wave pattern can be represented by an equation like.

1 $y(x . t)=2 A \sin k(k x-\omega t)$

2 $y(x . t)=A \sin (k x-\omega t)+A \cos (k x-\omega t)$

3 $y(x . t)=A \sin k x \operatorname{cox} \omega t$

4 $y(x . t)=A \sin (k x+\omega t)+A \cos (k x-\omega t)$

TS EAMCET (Medical)-02.05.2018

WAVES

172209 When a wave undergoes refraction?

1 Its frequency changes

2 Its amplitude changes

3 Its velocity changes

4 Both amplitude and frequency change

COMEDK 2017

WAVES

172210 The shape of wave front at a very large distance from source is

1 Circular

2 Spherical

3 Cylindrical

4 Plane

GUJCET 2017

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