Calculating Mass Needed to Ground Hot Air Balloon

AI Thread Summary
To calculate the extra mass needed to keep a hot air balloon grounded, the total forces acting on the balloon must equal zero. The forces include the gravitational force from the total mass (724 kg plus the mass of the heated air) and the buoyancy force, which arises from the density difference between the hot air inside the balloon and the cooler outside air. The buoyancy force can be determined using the volume of the balloon and the density of the outside air. The pilot must add enough mass to counterbalance the buoyancy force to ensure the balloon remains stationary. This calculation is essential for safe balloon operation before launch.
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Homework Statement



A good estimate for the volume of a particular hot air balloon is 2800 m3. Suppose the total load (passengers, fuel, balloon fabric, etc.) on a hot air balloon is 724 kg. In preparing to launch, the pilot heats the air inside to an average temperature of 210 oC, giving it a density of 0.95 kg/m3 (compared to a density of 1.2 kg/m3 for the air outside the balloon). [Note! This means that the total mass of the hot air balloon is 724 kg plus the mass of the hot air in the balloon!]

How much extra mass does the pilot need to keep in the basket in order to stay on the ground while all passengers are on board?

Homework Equations





The Attempt at a Solution



I'm really lost here. Any help would be great.
 
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well so you want the balloon to stay on the ground, in other words: zero velocity

this means that all the forces acting on the balloon need to sum up to be zero

there's only going to be two forces acting on the balloon. The force due to gravity acting on the total mass of the system and the buoyancy force due to the difference in the density of the air inside the balloon compared to outside

so obviously, as given in the problem, the 724 kg mass is not going to be enough to keep it down, so you need to add some other force to that to equal the buoyancy force
 
So...
-9.8(negative because pushing down)*724 + 9.8*___=0?
 
well, no, you need to account for the buoyancy force
 

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