An air bubble of radius 2.0mm is formed at the bottom of a 3.3 deep river. Calculate the radius of the bubble as it comes to the surface. Atmospheric pressure `=1.0xx10^(5)Pa` and desnity of water`=1000kg m^(-3).

An air bubble of radius 2.0mm is formed at the bottom of a 3.3 deep ri

1.	An air bubble of radius 2.0mm is formed at the bottom of a 3.3 deep river. Calculate the radius of the bubble as it comes to the surface. Atmospheric pressure `=1.0xx10^(5)Pa` and desnity of water`=1000kg m^(-3).
Answer» Given, P_1 = (10^5) + rho g h = (10^5)+ 1000` ` = 1.33 xx (10^5)Pa` ` (P_2) = (10^5)Pa` ` T_1 = (T_2) = T ` ` V_1 = (4/ (3 pi))((2 xx (10^-3))^3), ` ` V_2 (4/(3pi(r^3)))` ` We know, ((P_1)(V_1)/T_1) = ((P_2)(V_2)/T_2)` ` ( 1.33 xx (10^5) xx (4/ 3pi) xx ((2 xx (10^-3))^3))/T_1` ` = ((10^5) xx (4/3 pi (r^3))/ T_2)` ` rArr = (1.33 xx 8 xx (10^5) xx (10^-9))` ` = (10^5) xx (r^3)` ` rArr r = (3 sqrt (10.64 xx (10^-9)))` ` = (2.19 xx (10^-3)) = 2.2 mn.`

Discussion

No Comment Found

Related InterviewSolutions

To what temperature in `.^(@)C` a gas has to be heated to produce 10% change in volume at constant pressure, if the initloa temperature of the gas is at `0^(@)C`?A. 17.3B. 27.3C. 33.3D. 13.15
If the pressure of an ideal gas is decreased by 10% isothermally, then its volume willA. decrease by 9%B. increase by 10%C. increase by 11.6%D. increase by 9%
By what percentage should the pressure of a given mass of a gas be increased so as to decrease its volume by 10% at a constant temperature?A. `8.1%`B. `10.1%`C. `9.1%`D. `11.1%`
A certain volume of dry air at `20^(@)C` is expanded to three thimes its volume (i) Slowly, (ii) suddenly. Calculate the final pressure and temperature in each case. Atmosperic pressure `= 10^(5) Nm^(-2), gamma` of air = 1.4
The volume of a gas at `20^(@)C` is 100 cm 3 at normal pressure. If it is heated to `100^(@)C` , its volume becomes 125 cm 3 at the same pressure, then volume coefficient of the gas at normal pressure isA. `0.0033//.^(@)C`B. 0.0030/`.^(@)C`C. 0.0025/`.^(@)C`D. 0.0021/`.^(@)C`
One litre of helium gas at a pressure `76 cm`. Of Hg and temperature `27^(@)C` is heated till its pressure and volume are double. The final temperature attained by the gas is:A. `327^(@)C`B. `927^(@)C`C. `1027^(@)C`D. `827^(@)C`
An ideal gas has volume`V_(0)` at . `27^(@)C` It is heated at constant pressure so that its volume becomes . `2V_(0).`The final temperature isA. `327K`B. `327^(@)C`C. `54^(@)C`D. `150^(@)C`
`250 litre` of an ideal gas is heated at constant pressure from `27^(@)C` such that its volume becomes `500 litre`. The final temperature isA. `54^(@)C`B. `300^(@)C`C. `327^(@)C`D. `600^(@)C`
A gas at pressure P is abiabatically compressed so that its density becomes twice that of initial value. Given that `gamma=C_(p)//C_(v)=(7//5)` , What will be the final pressure of the gas ?A. `2p`B. `(7)/(5)`C. 2.63 pD. p
To what temperature should the oxygem at `27^(@)C` be heated at constant pressure, so that the root mean square velocity of its molecules becomes thrice of its previous value.A. `2700^(@)C`B. `2700K`C. `2327^(@)C`D. 270K

An air bubble of radius 2.0mm is formed at the bottom of a 3.3 deep river. Calculate the radius of the bubble as it comes to the surface. Atmospheric pressure `=1.0xx10^(5)Pa` and desnity of water`=1000kg m^(-3).

Discussion

No Comment Found

Related InterviewSolutions

Reply to Comment