MTG NEET Physics

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Two wires are kept tight between the same pair supports. The tensions in the wires are in the ration 2:1, the radii are in the ratio 3:1 and the densities are in the ratio 1:2. The ratio of their fundamental frequencies is
12
Nov
Two wires are kept tight between the same pair supports. The tensions in the wires are in the ration 2:1, the radii are in the ratio 3:1 and the densities are in the ratio 1:2. The ratio of their fundamental frequencies is the radii are in the ratio 3:1 and the densities are in the [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: the radii are in the ratio 3:1 and the densities are in the ratio 1:2. The ratio of their fundamental frequencies is , Two wires are kept tight between the same pair supports. The tensions in the wires are in the ration 2:1 ,
A sonometer wire is divided into many segments using bridges. If fundamental natural frequencies of the segments are f1​,f2​f3​,…. then the fundamental natural frequency of entire sonometer wire will be (if the divisions were not made)
12
Nov
A sonometer wire is divided into many segments using bridges. If fundamental natural frequencies of the segments are f1​,f2​f3​,…. then the fundamental natural frequency of entire sonometer wire will be (if the divisions were not made) .... then the fundamental natural frequency of entire sonometer wire will be (if the divisions were not made) A [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: .... then the fundamental natural frequency of entire sonometer wire will be (if the divisions were not made) , A sonometer wire is divided into many segments using bridges. If fundamental natural frequencies of the segments are f1​ , f2​f3​ ,
A sonometer wire of length 1.5 m is made of steal. The tension in it produces an elastic strain of 1%. What is the fundamental frequency of density? elasticity of steel are 7.7×103kg/m3and2.2×1011N/m2 respectively?
12
Nov
A sonometer wire of length 1.5 m is made of steal. The tension in it produces an elastic strain of 1%. What is the fundamental frequency of density? elasticity of steel are 7.7×103kg/m3and2.2×1011N/m2 respectively? Two progressive wave are represented by the following equations ..y1​=10sin2π(10t−0.1x) and y2​=20sin2π(20t−0.2x). Find the ratio of their intensities November 12, 2020 [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: Two progressive wave are represented by the following equations ..y1​=10sin2π(10t−0.1x) and y2​=20sin2π(20t−0.2x). Find the ratio of their intensities ,
A steel wire of length 503‾√cm is connected to an aluminium wire of length 60cm and stretched between two fixed supports. The tension produced is 104N , if the cross section area of each wire is 1mm2 . If a transverse wave is set up in the wire, find the lowest frequency for which standing waves with node at the joint are produced . (density of aluminimum =2.6gm/cm3 and density of steel =7.8gm/cm3 ). is connected to an aluminium wire of length 60cm and stretched between two fixed supports. The tension produced is 104N , if the cross section area of each wire is 1mm2 . If a transverse wave is set up in the wire, find the lowest frequency for which standing waves with node at the joint are produced . (density of aluminimum =2.6gm/cm3 and density of steel =7.8gm/cm3 ).
12
Nov
A steel wire of length 503‾√cm is connected to an aluminium wire of length 60cm and stretched between two fixed supports. The tension produced is 104N , if the cross section area of each wire is 1mm2 . If a transverse wave is set up in the wire, find the lowest frequency for which standing [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: A steel wire of length 503‾√cm is connected to an aluminium wire of length 60cm and stretched between two fixed supports. The tension produced is 104N , if the cross section area of each wire is 1mm2 . If a transverse wave is set up in the wire , Two progressive wave are represented by the following equations ..y1​=10sin2π(10t−0.1x) and y2​=20sin2π(20t−0.2x). Find the ratio of their intensities ,
A steel wire of length 60 cm and area of cross section 10−6 m2 is joined with an aluminium wire of length 45 cm and area of cross section 3×10−6 m2. The composite string is stretched by a tension of 80 N. Density of steel is 7800 kg m−3 and that of aluminium is 2600 kg m−3. The minimum frequency of tuning fork, which can produce standing wave in it with node at the joint is
12
Nov
A steel wire of length 60 cm and area of cross section 10−6 m2 is joined with an aluminium wire of length 45 cm and area of cross section 3×10−6 m2. The composite string is stretched by a tension of 80 N. Density of steel is 7800 kg m−3 and that of aluminium is 2600 [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: Two progressive wave are represented by the following equations ..y1​=10sin2π(10t−0.1x) and y2​=20sin2π(20t−0.2x). Find the ratio of their intensities ,
Two progressive wave are represented by the following equations ..y1​=10sin2π(10t−0.1x) and y2​=20sin2π(20t−0.2x). Find the ratio of their intensities
12
Nov
Two progressive wave are represented by the following equations ..y1​=10sin2π(10t−0.1x) and y2​=20sin2π(20t−0.2x). Find the ratio of their intensities Two progressive wave are represented by the following equations ..y1​=10sin2π(10t−0.1x) and y2​=20sin2π(20t−0.2x). Find the ratio of their intensities November 12, 2020 Category: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: Two progressive wave are represented by the following equations ..y1​=10sin2π(10t−0.1x) and y2​=20sin2π(20t−0.2x). Find the ratio of their intensities ,
The phase velocity of a wave decribed by the equation ψ=ψo​sin(kx+ωt+π/2) is?
12
Nov
The phase velocity of a wave decribed by the equation ψ=ψo​sin(kx+ωt+π/2) is? The phase velocity of a wave decribed by the equation ψ=ψo​sin(kx+ωt+π/2) is? November 12, 2020 Category: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: The phase velocity of a wave decribed by the equation ψ=ψo​sin(kx+ωt+π/2) is? ,
Two waves of the same kind and of the same amplitutde A superpose at a point with a phase difference of ϕ between them.Find the resultant amplitude(R)
12
Nov
Two waves of the same kind and of the same amplitutde A superpose at a point with a phase difference of ϕ between them.Find the resultant amplitude(R) Two waves of the same kind and of the same amplitutde A superpose at a point with a phase difference of ϕ between them.Find the resultant amplitude(R) November [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: Two waves of the same kind and of the same amplitutde A superpose at a point with a phase difference of ϕ between them.Find the resultant amplitude(R) ,
A metal wire with volume density ρ and young’s modulus Y is stretched between rigid supports. At temperature T , the speed of a transverse wave is found to be v1 . When temperature decreases T−ΔT , the speed increases to v2 . The coefficient of linear expansion of wire.
12
Nov
A metal wire with volume density ρ and young’s modulus Y is stretched between rigid supports. At temperature T , the speed of a transverse wave is found to be v1 . When temperature decreases T−ΔT , the speed increases to v2 . The coefficient of linear expansion of wire. A metal wire with volume [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: A metal wire with volume density ρ and young's modulus Y is stretched between rigid supports. At temperature T , the speed increases to v2 . The coefficient of linear expansion of wire. , the speed of a transverse wave is found to be v1 . When temperature decreases T−ΔT ,
Figure shows a string of linear mass density 1.0gcm−1 on which a wave pulse is travelling. Find the time taken by pulse in travelling through a distance of 50cm on the string. Take g=10ms−2
12
Nov
Figure shows a string of linear mass density 1.0gcm−1 on which a wave pulse is travelling. Find the time taken by pulse in travelling through a distance of 50cm on the string. Take g=10ms−2 Figure shows a string of linear mass density 1.0gcm−1 on which a wave pulse is travelling. Find the time taken by [...]
Posted in: Chapter 17 - Wave Motion , MTG NEET Physics , Part 1 ,
Tags: Figure shows a string of linear mass density 1.0gcm−1 on which a wave pulse is travelling. Find the time taken by pulse in travelling through a distance of 50cm on the string. Take g=10ms−2 ,