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right
compare the movement of the slide, left and right or forward and backward to the movement of the eyepiece image? compare the movement of the slide, left and right or forward and backward to the movement of the eyepiece image? compare the movement of the slide, left and right or forward and backward to the movement of the eyepiece image?
When you move your slide to the left, the slide move into the opposite direction. This rule works for all the directions. When you move your slide to the left the letter "e" appears to move to the right. If you move your slide to the right the letter "e" appears to move to the left and it works just like that for up and down. This rule applies to all sides because the light reflects and that's why the letter "e" moves to the opposite direction. When an object reflects, it does or goes to the opposite side so it has to move to the opposite place. This pattern also applies to the mirror and etc. This why you need a glass so the light can reflect and make a view.
When you move the slide of the microscope to the right, any object on the slide as well as the slide itself will appear to move to the left. In a microscope, the image is actually inverted sideways and upside down. Like a double reflection.
In microscopy, the image moves in a different direction from how the slide is moved because the lens of a microscope inverts the image. The image moves in the opposite direction from the slide.
right
compare the movement of the slide, left and right or forward and backward to the movement of the eyepiece image? compare the movement of the slide, left and right or forward and backward to the movement of the eyepiece image? compare the movement of the slide, left and right or forward and backward to the movement of the eyepiece image?
left
Left
When you move your slide to the left, the slide move into the opposite direction. This rule works for all the directions. When you move your slide to the left the letter "e" appears to move to the right. If you move your slide to the right the letter "e" appears to move to the left and it works just like that for up and down. This rule applies to all sides because the light reflects and that's why the letter "e" moves to the opposite direction. When an object reflects, it does or goes to the opposite side so it has to move to the opposite place. This pattern also applies to the mirror and etc. This why you need a glass so the light can reflect and make a view.
When you move your slide to the left, the slide move into the opposite direction. This rule works for all the directions. When you move your slide to the left the letter "e" appears to move to the right. If you move your slide to the right the letter "e" appears to move to the left and it works just like that for up and down. This rule applies to all sides because the light reflects and that's why the letter "e" moves to the opposite direction. When an object reflects, it does or goes to the opposite side so it has to move to the opposite place. This pattern also applies to the mirror and etc. This why you need a glass so the light can reflect and make a view.
When you move your slide to the left, the slide move into the opposite direction. This rule works for all the directions. When you move your slide to the left the letter "e" appears to move to the right. If you move your slide to the right the letter "e" appears to move to the left and it works just like that for up and down. This rule applies to all sides because the light reflects and that's why the letter "e" moves to the opposite direction. When an object reflects, it does or goes to the opposite side so it has to move to the opposite place. This pattern also applies to the mirror and etc. This why you need a glass so the light can reflect and make a view.
When you move the slide of the microscope to the right, any object on the slide as well as the slide itself will appear to move to the left. In a microscope, the image is actually inverted sideways and upside down. Like a double reflection.
it will move right direction
In microscopy, the image moves in a different direction from how the slide is moved because the lens of a microscope inverts the image. The image moves in the opposite direction from the slide.
no, the image will move in the opposite direction.
Right