the hot air from the heater rises forcing the cooler air out. this makes the balloon go up. this is convection
Yes, It is because in a hot air balloon the hot air rises and the cool air falls down.
Yes, the air inside a hot air balloon heats up, becomes less dense, and rises. This is an example of convection, where heat is transferred through the movement of fluid (in this case, air).
A hot air balloon is an example of convection because the process of heating the air inside the balloon causes it to become less dense and rise. This creates a convection current where the hot air rises and the cooler air around it sinks, allowing the balloon to float.
A hot air balloon is not an example of conduction because conduction is the transfer of heat through direct contact between particles in a material. In a hot air balloon, heat is transferred through convection as the heated air rises and displaces the cooler air.
This phenomenon is an example of heat transfer by convection. As the air inside the balloon heats up, it becomes less dense and rises to the top, transferring thermal energy and creating buoyancy that allows the balloon to float.
Yes, It is because in a hot air balloon the hot air rises and the cool air falls down.
Convection.
Yes, the air inside a hot air balloon heats up, becomes less dense, and rises. This is an example of convection, where heat is transferred through the movement of fluid (in this case, air).
A hot air balloon is an example of convection because the process of heating the air inside the balloon causes it to become less dense and rise. This creates a convection current where the hot air rises and the cooler air around it sinks, allowing the balloon to float.
Convection. In this case, the heated air molecules rise due to their lower density, carrying thermal energy from the heat source at the bottom of the balloon to the cooler top part of the balloon.
A hot air balloon is not an example of conduction because conduction is the transfer of heat through direct contact between particles in a material. In a hot air balloon, heat is transferred through convection as the heated air rises and displaces the cooler air.
This phenomenon is an example of heat transfer by convection. As the air inside the balloon heats up, it becomes less dense and rises to the top, transferring thermal energy and creating buoyancy that allows the balloon to float.
When a hot air balloon is filled with the hot air the air around the balloon is a lot denser. So by convection the balloon rises and the less dense air is replaced by dense air underneath it.
The main mode of heat transfer in a hot air balloon is convection. As the air inside the balloon is heated, it becomes less dense and rises, displacing cooler air downwards. This creates a convection current that generates lift and allows the balloon to float.
In a hot air balloon, convection occurs when the air inside the balloon is heated by a burner, causing it to become less dense than the cooler air outside. As the warm air rises, it creates an upward buoyant force that lifts the balloon. This process continues as long as the air inside the balloon remains warmer than the surrounding air, allowing the balloon to ascend. When the burner is turned off, the air cools, and the balloon gradually descends.
In a hot air balloon, convection is the process of hot air rising due to its lower density compared to the cooler air around it. The burner at the base of the balloon heats the air inside the balloon, causing it to become less dense and rise. As the air cools at higher altitudes, the balloon gradually descends. This cycle of heating and cooling allows the balloon to ascend and descend by controlling the temperature of the air inside.
Convection explains the ability to fly hot air balloons because hot air rises due to its lower density compared to cooler air. As the air inside the balloon heats up, it becomes less dense and creates buoyancy, lifting the balloon. This convection process allows the balloon to float in the cooler air above.