NEET Last 32 Years Solved 1988 – 2019 Physics and Chemistry Video Solutions

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In a sinusoidal wave, the time required for a particular point to move from maximum displacement to zero displacement is 0.170 second. The frequency of the wave is
26
Aug
In a sinusoidal wave, the time required for a particular point to move from maximum displacement to zero displacement is 0.170 second. The frequency of the wave is In a sinusoidal wave the time required for a particular point to move from maximum displacement to zero displacement is 0.170 second. The frequency of the wave [...]
Posted in: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: In a sinusoidal wave , the time required for a particular point to move from maximum displacement to zero displacement is 0.170 second. The frequency of the wave is ,
A standing wave having 3 nodes and 2 antinodes is formed between two atoms having a distance 1.21 A˚ between them. The wavelength of the standing wave is
26
Aug
A standing wave having 3 nodes and 2 antinodes is formed between two atoms having a distance 1.21 A˚ between them. The wavelength of the standing wave is A standing wave having 3 nodes and 2 antinodes is formed between two atoms having a distance 1.21 A˚ between them. The wavelength of the standing wave [...]
Posted in: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: A standing wave having 3 nodes and 2 antinodes is formed between two atoms having a distance 1.21 A˚ between them. The wavelength of the standing wave is ,
Two strings A and B have lengths lA​ and lB​ and carry pendulum of masses MA​ and MB​ at their lower ends the upper ends being supported by rigid supports. If nA​ and nB​ are their frequencies of their oscillations and nA ​= 2nB​, then :
25
Aug
Two strings A and B have lengths lA​ and lB​ and carry pendulum of masses MA​ and MB​ at their lower ends the upper ends being supported by rigid supports. If nA​ and nB​ are their frequencies of their oscillations and nA ​= 2nB​, then : which of the following equation represents a wave ? [...]
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Tags: which of the following equation represents a wave ? ,
A wave enters to water form air. In air frequency, wavelength intensity and velocity n 1,λ1,I 1 and v 1 respectively In water the corresponding quantities are n 2,λ2,I 2 and v 2 respectively, then
25
Aug
A wave enters to water form air. In air frequency, wavelength intensity and velocity n 1,λ1,I 1 and v 1 respectively In water the corresponding quantities are n 2,λ2,I 2 and v 2 respectively, then A wave enters to water form air. In air frequency I 1 and v 1 respectively In water the corresponding [...]
Posted in: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: A wave enters to water form air. In air frequency , I 1 and v 1 respectively In water the corresponding quantities are n 2 , I 2 and v 2 respectively , then , wavelength intensity and velocity n 1 , λ1 , λ2 ,
The phase difference between two waves represented by y1​ = 10^−6sin [100t+50x​+0.5]m y2​ = 10^−6cos [100t+50x​]m where x is expressed in metres and t is expressed in seconds is approximately
25
Aug
The phase difference between two waves represented by y1​ = 10^−6sin [100t+50x​+0.5]m y2​ = 10^−6cos [100t+50x​]m where x is expressed in metres and t is expressed in seconds is approximately The phase difference between two waves represented by y1​ = 10^−6sin [100t+50x​+0.5]m y2​ = 10^−6cos [100t+50x​]m where x is expressed in metres and t is [...]
Posted in: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: The phase difference between two waves represented by y1​ = 10^−6sin [100t+50x​+0.5]m y2​ = 10^−6cos [100t+50x​]m where x is expressed in metres and t is expressed in seconds is approximately ,
The transverse wave represented by the equation y = 4 sin (π6) sin (3 x−15 t) has
25
Aug
The transverse wave represented by the equation y = 4 sin (π6) sin (3 x−15 t) has The transverse wave represented by the equation y = 4 sin (π6) sin (3 x−15 t) has August 25, 2020 Category: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video [...]
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Tags: The transverse wave represented by the equation y = 4 sin (π6) sin (3 x−15 t) has ,
The frequency of sinusoidal wave, 0.40 cos (2000 t + 0.80) would be
25
Aug
The frequency of sinusoidal wave, 0.40 cos (2000 t + 0.80) would be 0.40 cos (2000 t + 0.80) would be The frequency of sinusoidal wave August 25, 2020 Category: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Posted in: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: 0.40 cos (2000 t + 0.80) would be , The frequency of sinusoidal wave ,
which of the following equation represents a wave ?
25
Aug
which of the following equation represents a wave ? which of the following equation represents a wave ? August 25, 2020 Category: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Posted in: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: which of the following equation represents a wave ? ,
A wave of amplitude A = 0.2 m, velocity v = 360 m/s and wavelength 60 m is travelling along positive x-axis, then the correct expression for the wave is
25
Aug
A wave of amplitude A = 0.2 m, velocity v = 360 m/s and wavelength 60 m is travelling along positive x-axis, then the correct expression for the wave is A wave of amplitude A = 0.2 m then the correct expression for the wave is velocity v = 360 m/s and wavelength 60 m [...]
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Tags: A wave of amplitude A = 0.2 m , then the correct expression for the wave is , velocity v = 360 m/s and wavelength 60 m is travelling along positive x-axis ,
From a wave equation y = 0.5 sin (2π3.2)(64 t−x). the frequency of the wave is
25
Aug
From a wave equation y = 0.5 sin (2π3.2)(64 t−x). the frequency of the wave is From a wave equation y = 0.5 sin (2π3.2)(64t−x). the frequency of the wave is August 25, 2020 Category: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics [...]
Posted in: Chapter 16 - Waves , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: From a wave equation y = 0.5 sin (2π3.2)(64t−x). the frequency of the wave is ,