Find electric field at the centre of arc which subtends '' angle at centre
[This question is only for Dropper and XII batch]
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The electric field vector in a region given by . Calculate the potential at (1m, 1m) taking potential at origin to be zero. [This question includes concepts from 12th syllabus]
1. 5V
2. 3V
3. -1V
4. -5V
Calculate the electric field on the axis of a very long uniformly charged, thin rod at a distance r from one end. The charge per unit length of the rod is . [This question includes concepts from 12th syllabus]
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Electric field is given by E . Find the potential difference between x= 10 and x= 20 m. [This question includes concepts from 12th syllabus]
1. 5 V
2. 10 V
3. 15 V
4. 20 V
The temperature of n moles of an ideal gas is increased from through a process . Find the work done by the gas. [This question is only for Dropper and XII batch]
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4. 2
An isolated container at 127 contains an ice cube of mass 100 g at 0. The specific heat C of container varies with temperature according to relation C= a+bT, where a= 0.1 kcal/kg-K and b= 40 m cal/kg K. Find the mass of container, if the final temperature of container is 300 K.
[Take = 80 cal/g and specific heat of water 1 cal/g K]
[This question is only for Dropper and XII batch]
1. 500 g
2. 720 g
3. 940 g
4. 1200 g
The specific heat of a substance varies with temperature t() as
c= 0.20 + 0.14 t + 0.023 . Find the heat required to raise the temperature of 2 gm of substance from 5 to 15 . [This question is only for Dropper and XII batch]
1. 41 cal
2. 82 cal
3. 80 cal
4. 40 cal
The upper edge of a gate in a dam runs along water surface. The gate is 2 m high and 3 m wide and is hinged along a horizontal line through its center. Calculate the torque about hinge. [This question is only for Dropper and XII batch]
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Consider a liquid of density in a container that spins with angular velocity as shown in figure. Find relation between y and x for any point P, if liquid rises due to rotation. [This question is only for Dropper and XII batch]
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The gravitational field due to a mass distribution is given by , where k is a constant. Assuming the potential to be zero at infinity, find the potential at a point x = a.[This question includes concepts from Gravitation chapter]
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