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To change velocity while keeping linear momentum constant, you need to understand the relationship between velocity, momentum, and mass.

Linear momentum (p) is defined as the product of an object's mass (m) and its velocity (v). Mathematically, it can be represented as p = m * v.

If you want to change your velocity while keeping your linear momentum constant, you must adjust your mass accordingly. Here's how you can achieve that:

  1. Increase Velocity: If you want to increase your velocity while maintaining constant momentum, you must decrease your mass. This is analogous to the behavior of ice skaters who extend their arms outward to decrease their moment of inertia and rotate faster.

  2. Decrease Velocity: If you want to decrease your velocity while keeping constant momentum, you must increase your mass. A similar principle can be observed when a spinning ice skater brings their arms closer to their body, increasing their moment of inertia and slowing down.

It's important to note that the conservation of momentum is applicable in isolated systems where no external forces are acting on the objects. In such systems, the total momentum remains constant before and after any internal interactions or changes in velocity occur.

By adjusting your mass inversely to your desired change in velocity, you can keep your linear momentum constant while experiencing a change in velocity.

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