FBD of Hot Air Balloon and Buoyancy

In summary, the problem is to find all acting forces on a hot air balloon rising from the ground, given its volume and mass. The three acting forces are the gravitational forces of the balloon itself and the air inside and outside of the balloon. The buoyancy force is the force responsible for lifting the balloon, and can be found by applying Archimedes' Principle. At rest on the ground, the balloon can have a neutral buoyancy, meaning that the density of the air inside is less than the external air, and the buoyancy force balances the weight of the balloon.
  • #1
zeralda21
119
1

Homework Statement




I want to find all acting forces on a hot air balloon rising form the ground. Volume and mass of balloon are given.


Homework Equations



F=mg
F_{b}=ρVg

The Attempt at a Solution



Here is my free-body diagram;

There are three acting forces:
1) F_1 = mg Which is the gravitational forces acting on the balloon itself(m is mass of the balloon)

2) F_2 = p_{balloon}Vg Which is the gravitational force of the air inside the balloon.

3) F_3 = p_{air}Vg Which is the gravitational force of the air outside of the balloon.

F_1 and F_2 are downward(negative y-direction) so F_3 must be an upward force. But I don't understand that. Say that you are pushing down an object into a fluid, then there is an upward force(buoyancy). And in this case we are lifting an object through a fluid, should not the buoyancy force be pushing down?? In that case, which force is forcing the balloon to rise?
 
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  • #2
Or maybe it is this way;

F_1 and F_2 are forces we want to lift and hence are upward and F_3 is in the opposite(negative direction). But that still does not explain which force that lifts F_1 and F_2...
 
  • #3
Investigate Archemedes' Principle. If you do a web search you will turn up lots of resources. Include the string "free body diagram" or "FBD" to narrow things down.
 
  • #4
gneill said:
Investigate Archemedes' Principle. If you do a web search you will turn up lots of resources. Include the string "free body diagram" or "FBD" to narrow things down.

Does not that mean that there should be a buoyancy force even when the balloon isn't rising(at rest at the ground)? In that case the density(or should we say temperature) of the air inside is the obviously the same as outside and

ƩF: N+ρ_{air}Vg-ρ_{balloon}Vg-mg=0

since ρ_{air}Vg=ρ_{balloon}Vg and N=mg

Correct analysis?
 
  • #5
Something can be at rest at ground level either by having weight that presses it to the ground, or because it is neutrally buoyant. In the latter case, the density of the gas in the balloon can be less than that of the external air so that buoyancy just balances the weight of the balloon.
 

Related to FBD of Hot Air Balloon and Buoyancy

1. What is the concept of buoyancy in relation to hot air balloons?

Buoyancy is the force that allows objects to float in a fluid, such as air or water. In hot air balloons, the heated air inside the balloon is less dense than the surrounding cool air, creating a buoyant force that lifts the balloon into the air.

2. How does the temperature of the air inside the balloon affect its buoyancy?

The temperature of the air inside the balloon is crucial in determining the amount of buoyant force it will experience. The hotter the air, the less dense it becomes, resulting in a greater buoyant force and a higher lift for the balloon.

3. What happens to the buoyant force if the temperature of the air inside the balloon changes?

If the temperature of the air inside the balloon changes, the buoyant force will also change. If the air cools down, it will become denser, resulting in a decrease in buoyant force and a decrease in lift. On the other hand, if the air heats up, it will become less dense, leading to an increase in buoyant force and a higher lift.

4. How does the weight of the hot air balloon affect its buoyancy?

The weight of the hot air balloon plays a significant role in determining its buoyancy. If the weight of the balloon is greater than the buoyant force, it will not be able to lift off the ground. However, if the weight is less than the buoyant force, the balloon will rise into the air.

5. Can the size and shape of a hot air balloon affect its buoyancy?

Yes, the size and shape of a hot air balloon can affect its buoyancy. A larger balloon will displace more air, resulting in a greater buoyant force and a higher lift. Additionally, the shape of the balloon can impact how efficiently it can trap hot air, which can affect its buoyancy and lift.

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