A spherical air balloon rises from the bottom of a lake of depth 80 m, where the temperature is 4°C to the surface of the lake where the temperature is 25°C. If the balloon's volume at the bottom of the lake is "V", then the volume of the balloon at the surface of the lake is: (Atmospheric pressure: PO=100 000 Pa; density of water: p = 1000 kg/m^3; g = 10 m/s?) 9.195V 9.455V 9.682V 9.845V O None of the other answers

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Thermo dynamics and waves no need for justification
A spherical air balloon rises from the
bottom of a lake of depth 80 m, where
the temperature is 4°C to the surface
of the lake where the temperature is
25°C. If the balloon's volume at the
bottom of the lake is "V", then the
volume of the balloon at the surface of
the lake is: (Atmospheric pressure:
PO=100 000 Pa; density of water: p =
1000 kg/m^3; g = 10 m/s?)
O 9.195V
9.455V
9.682V
9.845V
None of the other answers
Transcribed Image Text:Thermo dynamics and waves no need for justification A spherical air balloon rises from the bottom of a lake of depth 80 m, where the temperature is 4°C to the surface of the lake where the temperature is 25°C. If the balloon's volume at the bottom of the lake is "V", then the volume of the balloon at the surface of the lake is: (Atmospheric pressure: PO=100 000 Pa; density of water: p = 1000 kg/m^3; g = 10 m/s?) O 9.195V 9.455V 9.682V 9.845V None of the other answers
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