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What two forces act on the hot air balloon?
Two forces that act on a hot air balloon are lift, generated by the heated air inside the balloon being less dense than the surrounding air, and gravity, which pulls the balloon downward.
When making a balloon powered car is it balanced or unbalanced?
When making a balloon-powered car, it is typically designed to be unbalanced. The force of the escaping air from the balloon propels the car forward, creating an imbalance in forces that moves the car. This unbalance allows the car to move in the desired direction.
How does Newton's balloon car demonstrate the principles of motion and force?
Newton's balloon car demonstrates the principles of motion and force by showing how the force of the air escaping from the balloon propels the car forward, in accordance with Newton's third law of motion. The car moves in the opposite direction of the air escaping from the balloon, showcasing the concept of action and reaction forces.
When will your balloon car will have an unbalanced force on it?
The balloon car will have an unbalanced force on it when there is a difference in the forces acting on it, causing it to accelerate in a particular direction. This could happen if one side of the car experiences a greater force than the other, leading to an unbalanced force and acceleration.
What might happen when unbalanced forces act on a moving car?
When unbalanced forces act on a moving car, it can accelerate, decelerate, or change direction. The net force determines the acceleration or deceleration of the car, causing it to speed up, slow down, or turn.
What two forces act on the hot air balloon?
Two forces that act on a hot air balloon are lift, generated by the heated air inside the balloon being less dense than the surrounding air, and gravity, which pulls the balloon downward.
When making a balloon powered car is it balanced or unbalanced?
When making a balloon-powered car, it is typically designed to be unbalanced. The force of the escaping air from the balloon propels the car forward, creating an imbalance in forces that moves the car. This unbalance allows the car to move in the desired direction.
When two forces act on an object in opposite directions in a closed balloon the foresc are?
When two forces act on an object in opposite directions inside a closed balloon, the forces are in equilibrium. This means that the net force on the object is zero, resulting in no acceleration of the object.
How does Newton's balloon car demonstrate the principles of motion and force?
Newton's balloon car demonstrates the principles of motion and force by showing how the force of the air escaping from the balloon propels the car forward, in accordance with Newton's third law of motion. The car moves in the opposite direction of the air escaping from the balloon, showcasing the concept of action and reaction forces.
What forces act upon a car when it accelerates?
friction
What forcs act on a high altitude balloon?
A high altitude balloon experiences several forces, primarily buoyancy, weight, and drag. Buoyancy acts upward, allowing the balloon to rise in the atmosphere, while the weight of the balloon and its payload pulls it downward due to gravity. As the balloon ascends, drag increases due to air resistance, which can slow its ascent. The balance between these forces determines the balloon's altitude and behavior during flight.
What forces act on a mousetrap car?
friction, air resistance and gravity
What are good facts about how a balloon car works?
a balloon car works by the air in the balloon.
When will your balloon car will have an unbalanced force on it?
The balloon car will have an unbalanced force on it when there is a difference in the forces acting on it, causing it to accelerate in a particular direction. This could happen if one side of the car experiences a greater force than the other, leading to an unbalanced force and acceleration.
How do forces create motion?
it puhes and pulls it to make the balloon go one way and the car go the other way
What might happen when unbalanced forces act on a moving car?
When unbalanced forces act on a moving car, it can accelerate, decelerate, or change direction. The net force determines the acceleration or deceleration of the car, causing it to speed up, slow down, or turn.
What might happen when unbalanced forces act on a car?
When unbalanced forces act on a car, it will experience acceleration in the direction of the net force applied. This could cause the car to speed up, slow down, or change direction depending on the magnitude and direction of the forces. It is important for drivers to be aware of these forces to maintain control of their vehicle.
