size of image increases
As an object moves closer to a concave lens, the virtual image, that is created on the same side of the lens as the object, will remain upright but will be reduced in size.
the pressure increases
The closer the load is to the fulcrum the greater the mechanical advantage. The closer to the fulcrum, the less the load moves when the lever is used.
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.
They are 4 different images plotted on the Cartesian plane and they are:- Translation moves each point of a shape in the same distance and direction Reflection a mirror image of a shape Enlargement changes size of a shape by a given scale factor Rotation turns a shape at a given angle and at a fixed point
As an object moves closer to a concave lens, the virtual image, that is created on the same side of the lens as the object, will remain upright but will be reduced in size.
The same speed: the image will always appear to be at a point exactly behind the mirror as the object is in front.
the image looks shortened.
No. Not if it is a straight mirror.
A reflection is a mirror image of a shape whereas a translation moves an image to a different place
the pressure increases
No, the closer an object is to the lens, the more the spherical it is.
An object such as a train simply CANNOT travel at the speed of light. You can investigate what happens when it moves close to the speed of light.
That planet will move faster in its orbit.
aluminium is non magnets
it means you and your dancing partner face each other, you are supposed to be the mirror image of their dance moves as you are facing them
it means you and your dancing partner face each other, you are supposed to be the mirror image of their dance moves as you are facing them