Related MCQs

• Cavitation is more pronounced in rough pipes than smooth surfaced pipes.
• For liquid fluids will capillarity rise (or fall) increase or decrease with rise in temperature.
• Capillarity fall is reduced if we take the appartus (capillary tube immersed in fluid having acute angle of contact) considerable distance inside the earth( i.e below the earth crust).
• The surface tension of fluid in contact with air at 25℃ is 0.51N/m. The pressure inside a droplet is to be 0.05 N/cm2 greater than outside pressure. Determine the diameter of the droplet of water.
• Find the capillarity rise or fall if a capillary tube of diameter .03m is immersed in hypothetical fluid with specific gravity 6.5, surface tension 0.25 N/m and angle of contact 147°.
• Calculate the magnitude of capillary effect in millimeters in a glass tube of 7mm diameter, when immersed in mercury. The temperature of the liquid is 25℃ and the values of surface tension of mercury at 25℃ is 0.51 N/m. The angle of contact for mercury is 130°.
• FOR_LIQUID_FLUIDS_WILL_CAPILLARITY_RISE_(OR_FALL)_INCREASE_OR_DECREASE_WITH_RISE_IN_TEMPERATURE.?$
• Cavitation_is_more_pronounced_in_rough_pipes_than_smooth_surfaced_pipes.$
• Capillarity fall is reduced if we take the appartus (capillary tube immersed in fluid having acute angle of contact) considerable distance inside the earth( i.e below the earth crust)?
• If a fluid of certain surface tension and diameter is used to create a soap bubble and a liquid jet. Which of the two, bubble or liquid jet, will have greater pressure difference on the inside and outside.