Problem 1 A 0.5-m diameter helium (PHe = 0.18 kg/m³) balloon is attached by a rope to the bottom of a 10-m deep freshwater lake (Fig. 1). Given that the rope can sustain a maximum tensile force of 300...

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Problem 1<br>A 0.5-m diameter helium (PHe = 0.18 kg/m³) balloon is attached by a<br>rope to the bottom of a 10-m deep freshwater lake (Fig. 1). Given that the rope can sustain<br>a maximum tensile force of 300 N, would it be able to secure the balloon? Please clearly<br>illustrate your free-body diagram.<br>balloon<br>rope<br>Figure 1: A helium balloon is attached to the bottom of a lake by a rope.<br>

Extracted text: Problem 1 A 0.5-m diameter helium (PHe = 0.18 kg/m³) balloon is attached by a rope to the bottom of a 10-m deep freshwater lake (Fig. 1). Given that the rope can sustain a maximum tensile force of 300 N, would it be able to secure the balloon? Please clearly illustrate your free-body diagram. balloon rope Figure 1: A helium balloon is attached to the bottom of a lake by a rope.

Jun 11, 2022

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Problem 1 A 0.5-m diameter helium (PHe = 0.18 kg/m³) balloon is attached by a rope to the bottom of a 10-m deep freshwater lake (Fig. 1). Given that the rope can sustain a maximum tensile force of 300...

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