At what speed do you approach your image if you walk towards a plane mirror at 1 m/s ? I am not looking for this to be answered for me. I am just looking for how to figure it out. Is there a specific formula to use?

To determine the speed at which you approach your image while walking towards a plane mirror, you can follow these steps:

1. Understand the concept:
When an object moves towards a plane mirror, the image approaches the object at twice the speed of the object's motion. This is known as the "mirror image velocity" principle.

2. Identify the given information:
You are given that you are walking towards the plane mirror at a speed of 1 m/s. This is the speed of the object's motion.

3. Apply the mirror image velocity principle:
According to the mirror image velocity principle, the image approaches at twice the speed of the object's motion. Therefore, the velocity at which your image approaches you would be 2 times your walking speed.

4. Calculate the image velocity:
Multiply your walking speed by 2 to find the velocity at which your image approaches you.
Image velocity = 2 * Walking speed
Image velocity = 2 * 1 m/s
Image velocity = 2 m/s

So, your image would approach you at a speed of 2 m/s if you walk towards a plane mirror at 1 m/s.