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State any two characteristics of the angle of contact
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Show the formation of stationary waves diagramatically
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In the stationary wave, the distance between a node and its adjacent antinode is _______.
(a) λ
(b) `lambda/4`
(c) `lambda/2`
(d) 2λ
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In Melde’s experiment, when the tension in the string is 10 g wt then three loops are obtained. Determine the tension in the string required to obtain four loops, if all other conditions are constant.
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Calculate the work done in increasing the radius of a soap bubble in air from 1 cm to 2 cm. The surface tension of soap solution is 30 dyne/cm. (Π = 3.142).
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State the differential equation of linear simple harmonic motion.
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Hence obtain the expression for acceleration, velocity and displacement of a particle performing linear S.H.M.
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The electron in the hydrogen atom is moving with a speed of 2.3x106 m/s in an orbit of radius 0.53 Å. Calculate the period of revolution of the electron. (Π = 3.142)
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The refractive indices of water and diamond are `4/3` and 2.42 respectively. Find the speed of light in water and diamond. (c = 3x108 m/s)
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When a sparingly soluble substance like alcohol is dissolved in water, surface tension of water
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Using an expression for energy of electron, obtain the Bohr’s formula for hydrogen spectral lines.
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Explain the formation of stationary waves by analytical method. Show that nodes and antinodes are equally spaced in stationary waves.
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State how a moving coil galvanometer can be converted into an ammeter.
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Kirchhoff’s first law, i.e., ΣI = 0 at a junction, deals with the conservation of ______.
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Answer in brief:
A uniform disc and a hollow right circular cone have the same formula for their M.I. when rotating about their central axes. Why is it so?
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Are Kirchhoff’s laws applicable to both AC and DC currents?
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Discuss the interlink between translational, rotational and total kinetic energies of a rigid object rolls without slipping.
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Answer in Brief:
A rigid object is rolling down an inclined plane derive the expression for the acceleration along the track and the speed after falling through a certain vertical distance.
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Answer in Brief:
Part of a racing track is to be designed for curvature of 72m. We are not recommending the vehicles to drive faster than 216 kmph. With what angle should the road be tilted? By what height will its outer edge be, with respect to the inner edge if the track is 10 m wide?
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A road is constructed part of a racing tracks to be designed with radius of curvature 72 m. We are not recommending the vehieles to drive faster than 216 kmph.. The coefficient of static friction between the tyres of a vehicle on this road is 0.8, will there be any lower speed limit? By how much can the upper speed limit exceed in this case?
(Given: r = 72 m, vo = 216 km/h, w = 10 m, θ = 78°4', h = 9.805 m)
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