Sixty four spherical rain drops of equal size are falling vertically through air with a terminal velocity 1.5 ms-1 . If these drops coalesce to form a big spherical drop, then terminal velocity of big drop is
8 ms-1
16 ms-1
24 ms-1
32 ms-1
C.
24 ms-1
A cylinder of height 20 m is completely filled with water. The velocity of efflux of water (in ms-1 ) through a hole on the side wall of the cylinder near its bottom, is
10
20
25.5
5
A liquid flows through a pipe of non-uniform cross-section. If A1 and A2 are the cross-sectional areas of the pipe at two points, the ratio of velocities of the liquid at these points will be
A1A2
A piece of ice is floating in a jar containing water. When the ice melts, then the level of water
rises
falls
remains unchanged
rises or falls
Radius of an air bubble at the bottom of the lake is r and it becomes 2 r when the air bubble rises to the top surface of the lake. If P cm of water be the atmospheric pressure, then the depth ofthe lake is
2 P
8 P
4 P
7 P
A manometer connected to a closed tap reads 4.5 x 105 Pa. When the tap is opened the reading of the manometer falls to 4 x 105 Pa. Then the velocity of flow of water is
7 ms-1
8 ms-1
9 ms-1
10 ms-1
A beaker of radius 15 cm is filled with a liquid of surface tension 0.75 N/m. Force across an imaginary diameter on the surface of the liquid is
0.075 N
1.5 × 10-2 N
0.225 N
2.25 × 10-2 N
Two spheres of equal masses but radii r1 and r2 are allowed to fall in a liquid of infinite column. The ratio of their terminal velocities is
1
r1 : r2
r2 : r1
A liquid flows through two capillary tubes A and B connected in series. The length and radius of B are twice those of A. What is the ratio of the pressure difference across A to that across B ?
n identical droplets are charged to V volt each. if they coalesce to form a single drop, then its potential will be
n2/3V
n1/3V
nV
V/n