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How can we calculate the magnitude and direction of acceleration in a hot air balloon?

Magnitude and Direction of Acceleration in a Hot Air Balloon

The magnitude and direction of the acceleration in a hot air balloon can be determined by using the formula: a = F/m, where F represents the upward force and m represents the mass of the balloon. Given that the hot air balloon weighs 3100kg and the hot air creates an upward force of 30,000N, what is the acceleration?

To calculate the acceleration, we substitute the given values into the formula: a = F/m. This gives us a = 30,000/3100 = 9.68 m/s² upward. Therefore, the magnitude and direction of the acceleration in the hot air balloon is 9.68 m/s² upward.

Acceleration is defined as the rate of change of velocity, and in this case, it represents the force acting on the balloon in an upward direction. Understanding the concept of acceleration helps us comprehend how objects move and interact in the physical world.

By exploring the physics behind the acceleration of a hot air balloon, we gain insights into the forces that shape the world around us. Learning about acceleration opens up new possibilities for understanding motion, forces, and energy in our everyday lives.

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