An air bubble of radius 4.5 cm initially at a depth of 12 m below the water surface rises to the surface. If the atmospheric pressure is equal to 10.34 m of water, the radius of the bubble just before it reaches the water surface is

EMPIRE999

1 year ago

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to gain admission na war
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Truss

1 year ago

Trust
:
To solve this, we can apply Boyle's Law, which states that for a fixed amount of gas at constant temperature:

P1 V1 = P2 V2

Since the bubble is spherical, the volume is proportional to . So we can rewrite Boyle's law as:

P1( r1)^3 = P2 (r2)^3

Given:

Initial radius, cm

Initial pressure, atmospheric pressure + pressure due to 12 m of water


P1 = 10.34 + 12 = 22.34

Final radius


Apply the equation:

22.34 × (4.5)^3 = 10.34 ×(r2)^3

22.34 ×91.125 = 10.34 ×(r2)^3

2035.96 = 10.34 ×(r2)^3

(r2)^3 = {2035.96}÷{10.34} =196.86

r2 = 3√{196.86} =5.82 { cm}

Final Answer:

D. 5.82 cm

Gloria15

1 year ago

pls someone should explain the solution

BlowBubblegum

3 months ago

2023 questions be like war o

omgimd

1 year ago

this is poo really. There's no cube root on jamb calculator. what do we do then? They're just giving questions someone would fail

danis001

1 year ago

Tell the guy to teach more slowly. He is too rushing

nesokaine

5 months ago

howtosolvewithoutcalculator

Markibobo

1 year ago

yo

vwofeg

2 months ago

when you don try to dey solve and you now see cube root of a rediculous figure and there is no calculator o
God help us in physics

Gileadeon

1 year ago

Like my comment if you are writing your jamb in 2035

by then i would have married