361246 The pressures inside two soap bubbles are 1.01 and 1.02 atmosphere respectively. The ratio of their volumes is

361247 An air bubble of radius \(1mm\) is formed inside water at a depth \(10\,m\) below free surface ( where air pressure is \({10^5}N/{m^2}\) ). The pressure inside the bubble is (surface tension of water =\(2 \times {10^{ - 7}}N/m\) ).

361248 A soap bubble is being blown on a tube of radius \(1\;cm\). The surface tension of the soap solution is \(0.05\;N/m\) and the bubble makes an angle of \(60^{\circ}\) with the tube as shown. The excess of pressure over the atmospheric pressure in the tube is:

361249 Match the Column I (situation) with Column II (value or changes) and select the correct answer from the codes given below.
Column I
Column II
A
When a single drop splits into n-identical drops, then
P
zero
B
When a n- identical drops combine to form a single drop, then
Q
Energy absorbed
C
The surface tention of water at boiling temparature is
R
Energy released

361246 The pressures inside two soap bubbles are 1.01 and 1.02 atmosphere respectively. The ratio of their volumes is

361247 An air bubble of radius \(1mm\) is formed inside water at a depth \(10\,m\) below free surface ( where air pressure is \({10^5}N/{m^2}\) ). The pressure inside the bubble is (surface tension of water =\(2 \times {10^{ - 7}}N/m\) ).

361248 A soap bubble is being blown on a tube of radius \(1\;cm\). The surface tension of the soap solution is \(0.05\;N/m\) and the bubble makes an angle of \(60^{\circ}\) with the tube as shown. The excess of pressure over the atmospheric pressure in the tube is:

361249 Match the Column I (situation) with Column II (value or changes) and select the correct answer from the codes given below.
Column I
Column II
A
When a single drop splits into n-identical drops, then
P
zero
B
When a n- identical drops combine to form a single drop, then
Q
Energy absorbed
C
The surface tention of water at boiling temparature is
R
Energy released

361246 The pressures inside two soap bubbles are 1.01 and 1.02 atmosphere respectively. The ratio of their volumes is

361247 An air bubble of radius \(1mm\) is formed inside water at a depth \(10\,m\) below free surface ( where air pressure is \({10^5}N/{m^2}\) ). The pressure inside the bubble is (surface tension of water =\(2 \times {10^{ - 7}}N/m\) ).

361248 A soap bubble is being blown on a tube of radius \(1\;cm\). The surface tension of the soap solution is \(0.05\;N/m\) and the bubble makes an angle of \(60^{\circ}\) with the tube as shown. The excess of pressure over the atmospheric pressure in the tube is:

361249 Match the Column I (situation) with Column II (value or changes) and select the correct answer from the codes given below.
Column I
Column II
A
When a single drop splits into n-identical drops, then
P
zero
B
When a n- identical drops combine to form a single drop, then
Q
Energy absorbed
C
The surface tention of water at boiling temparature is
R
Energy released

361246 The pressures inside two soap bubbles are 1.01 and 1.02 atmosphere respectively. The ratio of their volumes is

361247 An air bubble of radius \(1mm\) is formed inside water at a depth \(10\,m\) below free surface ( where air pressure is \({10^5}N/{m^2}\) ). The pressure inside the bubble is (surface tension of water =\(2 \times {10^{ - 7}}N/m\) ).

361248 A soap bubble is being blown on a tube of radius \(1\;cm\). The surface tension of the soap solution is \(0.05\;N/m\) and the bubble makes an angle of \(60^{\circ}\) with the tube as shown. The excess of pressure over the atmospheric pressure in the tube is:

361249 Match the Column I (situation) with Column II (value or changes) and select the correct answer from the codes given below.
Column I
Column II
A
When a single drop splits into n-identical drops, then
P
zero
B
When a n- identical drops combine to form a single drop, then
Q
Energy absorbed
C
The surface tention of water at boiling temparature is
R
Energy released