Water contained in a tank flows through an orifice of a diameter 2 cm under a constant pressure difference of 10 cm of water column. The rate of flow of water through the orifice is

A pipe is running full of water. At a certain point A it tapers from 60 cm diameter to 2.0 cm diameter at B . The pressure difference between A and B is 100 cm of water column. Find the rate of flow of water through the pipe.

A pitot tube is fixed in a water pipe of diameter 14 cm and difference of pressure by the gauge is 20 cm of water column. Calculate the rate of flow of water.

A pitot tube is fixed in a main pipe of diameter 20 cm and difference of pressure indicated by the gauge is 5 cm of water column. Find the volumn of water passing through the main pipe in one minute.

Water flows through a capillary tube at the rate of 10 cc per minute. If the pressure difference across the same tube is doubled, the rate of flow of water throught he tube wil be (in cc per minute)

The diameter of a horizontal tube at points A and B are 6 cm and 3 cm, respectively. Two manometer limbs are attached at A and B. When water is allowed to flow through the tube, pressure difference of 10 cm is noted between the limbs. Calculate the rate of flow of water in the tube.

Calculate the mass of water flowing in 10 minutes throuth a tube 1 mm in diameter and 0.40 m long ,if there is a constant pressure heat of 20 cm of water . Coefficient of visosity of water is 0.00089 Pas.

Water is flowing in a pipe of uniform cross section under constant pressure difference At some place the pipe becomes narrow. The pressure of at water at this place

The rate of flow of liquid through an orifice of a tank does not depend upon

The rate of flowing of water from the orifice in a wall of a tank will be more if the orifice is