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Why Do Balanced Forces Result in Zero Acceleration in an Object?

Balanced forces happen when two or more forces acting on an object are equal in strength but push in opposite directions. Here’s why this means there is no acceleration:

  1. Equal Strength: When forces are balanced, they cancel each other out. For example, if one force of 10 N pushes to the right and another force of 10 N pushes to the left, they balance each other.

  2. No Change in Movement: According to Newton's First Law, an object that is still will stay still, and an object that is moving will keep moving at the same speed and direction unless something unbalanced pushes on it. Because balanced forces don’t change what the object is doing, there’s no acceleration.

  3. Net Force Calculation: The net force is 0 N (10 N to the left - 10 N to the right = 0 N), which means there is also zero acceleration.

So, when forces are balanced, it means there is no acceleration!

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Why Do Balanced Forces Result in Zero Acceleration in an Object?

Balanced forces happen when two or more forces acting on an object are equal in strength but push in opposite directions. Here’s why this means there is no acceleration:

  1. Equal Strength: When forces are balanced, they cancel each other out. For example, if one force of 10 N pushes to the right and another force of 10 N pushes to the left, they balance each other.

  2. No Change in Movement: According to Newton's First Law, an object that is still will stay still, and an object that is moving will keep moving at the same speed and direction unless something unbalanced pushes on it. Because balanced forces don’t change what the object is doing, there’s no acceleration.

  3. Net Force Calculation: The net force is 0 N (10 N to the left - 10 N to the right = 0 N), which means there is also zero acceleration.

So, when forces are balanced, it means there is no acceleration!

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