10. A balloon is filled with helium (density = 0.180 kg/m³) to a volume that has a radius of 1.50 m and is then connected to a string as shown in the figure. If the mass of the skin of the balloon is 1.95 kg, determine the tension in the string when the balloon is at equilibrium. The density of air is 1.30 kg/m³. jph199 jph199* h199 jph199 jph199 jph199 | 566140 6614df 6614df 6610 199 ph199ph199 jph19 ph199 jph199 jph199 jph19" [df 6614d! 6614df 6614df (
10. A balloon is filled with helium (density = 0.180 kg/m³) to a volume that has a radius of 1.50 m and is then connected to a string as shown in the figure. If the mass of the skin of the balloon is 1.95 kg, determine the tension in the string when the balloon is at equilibrium. The density of air is 1.30 kg/m³. jph199 jph199* h199 jph199 jph199 jph199 | 566140 6614df 6614df 6610 199 ph199ph199 jph19 ph199 jph199 jph199 jph19" [df 6614d! 6614df 6614df (
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Transcribed Image Text:10. A balloon is filled with helium (density = 0.180 kg/m³) to a volume that has a radius of 1.50 m and is then connected
to a string as shown in the figure. If the mass of the skin of the balloon is 1.95 kg, determine the tension in the string
when the balloon is at equilibrium. The density of air is 1.30 kg/m³.
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