A source of sound placed at the open end of a resonance column sends an acoustic wave of pressure amplitude `P_(0)` inside the tube. If the atmospheric pressure is `P_(A)`, then the ratio of maximum and minimum pressure at the closed end of the tube will be

If the atompspheric pressure is P _(a) then the jpressure P at depth a below the surface of a liquid of density rho open to the atmosphere is

Explain how to measure atmospheric pressure by using open tube manometer.

One end of a glass capillary tube with a radius r is immersed into water to a depth of h The surface tension of water is s and atmospheric pressure is p_0 . What pressure is required to blow an air bubble out of the lower end of the tube? Density of water is rho

A student is performing the experiment of resonance column. The diameter of the column tube is 4 cm . The frequency of the tuning fork is 512 Hz The air temperature is 38.^(@) C in which the speed of sound is 336 m//s . The zero of the meter scale coincides with the top end of the resonance column tube. When the first resonance occurs, the reading of the water level in the column is. (a) 14.0 cm (b) 15.2 cm ( c) 6.4 cm (d) 17.6 cm .

The shortest length of resonating air column closed at one end is 7 cm when a tuning fork of frequency 480Hz is used.If inner diameter of the tube is 3 cm, find velocity of sound in air.

Assertion : Pressure in bubble ( r ) in the atmosphere of pressure P_0 is P_0+(4sigma)/r where r is the radius and sigma is surface tension . Reason: (4sigma)/r is the excess pressure due to two surface exposed to the atmosphere .

Show that the fundamental frequency of vibrations of the air column in a tube open at both is equal to double the fundamental frequency in a tube of the same length and closed at one end.

In resonance experiment , the shortest length of air column resonating with a tuning fork of frequency 300Hz is 25 cm . The next resonance occiurs when water level is 80 cm below the open end. Find the velocity of sound in air and diameter of the tube.

Consider a liquid at rest in a container which opens into atmosphere. At any point A at a depth h below the surface of the liquid, (i) the gauge pressure at point A is rho gh. (ii) the gauge pressure at point a is P _(a)+rhogh. (iii) The pressure at point A is rhogh. (iv) The pressure at point A is Pa + rho gh. The correct alternative is

A glass capillary of length l and inside radius r(r lt lt l) is submerged vertically into water. The upper end of the capillary is scaled. The atmospheric pressure is p_(0) . To what length h has the capillary to be submerged to make the water levels inside and outside the capillary coincide. Assume that temperature of air in the capillary remains constant. (given, surface tension of water = T, angle of contact between glass water interface = 0^(@) )