No, the closer an object is to the lens, the more the spherical it is.
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Work
it moves ----------> there for if you were to push the object it will go <--------
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The density of the object is at least equal to, and possibly greater than, the density of the liquid in the beaker.
Movement Occurs When an Object moves Relative to a Stationary Object
the pressure 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.
It increases in order to conserve angular momentum.
When any object with mass moves, no matter at what speed, its mass increases. The faster it moves, the faster its mass increases. And the closer to the speed of light it moves, the closer to infinity its mass grows.
Yes, the closer you get the bigger the object will appear but to only the size of the object really is, and the farther away you get the small it will get
the object moves slower
When an object enters a black hole, it starts being stretched. As it moves closer and closer to the center of the black hole, the gravitational pull on the part of the object that is closer to the center becomes more powerful than the gravitation pull on the part of the object that is farther away from the center. The objects keeps on getting stretched until it reaches the center of the black hole. We don't yet know what happens at that point.
Understand that there is no relationship between the amount of steering required and the distance you are from the object
the shadow moves with it.
Moves.
balanced = no movement of the object unbalanced = the object moves
That planet will move faster in its orbit.