Your body and face will get smaller. But, it also makes your face and body look wider.
You'd be upside down and your eyebrows would appear to move away from the floor.
When you move your face away from a concave mirror, the image you see in the mirror will become smaller and eventually disappear as you move further away from the focal point of the mirror. This is because the magnification effect of the concave mirror is strongest when objects are close to the mirror's focal point.
As you move closer to a convex mirror, your image will appear smaller and more upright. The image will also move further away from the mirror.
When you move the microscope slide towards you, the image appears to move in the opposite direction (away) to maintain focus. Conversely, when you move the slide away from you, the image appears to move closer (towards you) to stay in focus. This is known as the parfocal property of microscopes.
If an image moves closer to a plane mirror, the distance between the object and the mirror stays the same while the image moves towards the mirror. As the image gets closer to the mirror, it appears to move further away from the viewer. The size of the image remains the same, but its apparent distance changes.
That has nothing to do with the "type"; it is how far they are away from Earth. Due to the general expansion of the Universe, galaxies that are far way from us systematically move away from us - the farther away, the faster. It is only nearby galaxies which may happen to move towards us.
When you move away from a mirror, your image appears smaller because the angle between you and the mirror increases, resulting in a smaller reflected image. This is due to the principles of reflection and geometry.
When you move a slide on the microscope stage away from you, the object seen through the eyepiece appears to move towards you. This is because as you push the slide away, the stage moves the object in the opposite direction, causing the object to appear to move towards you in the field of view.
As you move away from the ocean it gets less and less windy
When you bring the flashlight closer to the concave mirror, the image will appear larger and move further away from the mirror. This is due to the mirror reflecting light rays that converge at a point further away from the mirror as the object (flashlight) gets closer to it.
When you move the slide towards you, the letter on the slide appears to move in the opposite direction, away from you. This is due to the magnification effect caused by the lens in the microscope.
They slide, move towards and move away from each.