Home
Class 11
PHYSICS
An ideal liquid flowing through a pipe ...

An ideal liquid flowing through a pipe A of cross-section `0.2m^(2)` with velocity `10(m)/(s)` enters a T-junction. One side of the T-junction B has cross-section area `0.1m^(2)` and the other side C has cross-section area `0.05m^(2)`. If the velocity of water is C is `15(m)/(s)` then in B the velocity is

Promotional Banner

Similar Questions

Explore conceptually related problems

Water flows through a pipe of varying cross-section. If the velocity of flow is 0.24 m/s at a cross- section of 5 cm^2 , what will beits velocity at a cross-section of 10 cm^2 ?

Water is flowing steadily through a horizontal pipe of non - uniform cross - section . If the velocity of water cross - section is 0.02 m^(2) is 2m/s , what is the velocity of water at another point where the cross - section is 0.01 m^(2) ?

Water is flowing steadily through a horizontal pipe of non - uniform cross - section . If the velocity of water cross - section is 0.02 m^(2) is 2m/s , what is the velocity of water at another point where the cross - section is 0.01 m^(2) ?

Blood is flowing at the rate of 200cm^(3)s^(-1) in a capillary of cross sectional area 0.5m^(2) . The velocity of flow in mms^(-1) is:

Blood is flowing at the rates of 200 cm^(3)//sec in a capillary of cross-sectional area 0.5m^(2) . The velocity of flow, (in mm/sec) is:

Blood is flowing at the rates of 200 cm^(3)//sec in a capillary of cross-sectional area 0.5m^(2) . The velocity of flow, (in mm/sec) is:

A pipe of non uniform cross section has two distinct section 1 and 2 with areas 2cm^(2) and 4cm^(2) respectively. If the velocity of flowing liquid at section 1 is 5cm//s , determine the velocity at section 2 .

A pipe of non uniform cross section has two distinct section 1 and 2 with areas 2cm^(2) and 4cm^(2) respectively. If the velocity of flowing liquid at section 1 is 5cm//s , determine the velocity at section 2 .