Small object.
The large object moving at 25 mph would have more kinetic energy compared to the small object, assuming they have the same mass. Kinetic energy is dependent on both mass and velocity, so in this case, the larger object would have more kinetic energy due to its greater mass.
The type of grasp made with the palm and fingers opposing the thumb is called a precision grip. This grip allows for fine motor movements and precise object manipulation. It is commonly used when writing, drawing, or picking up small objects.
If the MASS of the 1st Object in a COLLISION is too small to generate a FORCE large enough to overcome the INERTIA of the 2nd Object, then the more massive Object will not move. This could make it look like the more massive object is not REACTING to the Collision.
A large truck typically has more inertia than a small car because inertia is directly proportional to an object's mass. The greater mass of the truck means it will resist changes in its state of motion more than the smaller car.
large
Because it is lighter.
It is not! According to Newton's law the exact opposite is true.
The physical size doesn't matter. The ability to stop (or start) an object depends on its mass. For example, a bowling ball has more mass than a large balloon or sofa cushion. Smaller masses are easier to stop (or start).
no, large apples bruise easier. (:
an object's acceleration depends on the object's mass and the force applied to it. the lager the force applied to it.
the large object spreads the water out more evenly over it's area because it's large while the small object has less space to do so.
It's relative to what you define as a small object.
a larger object
your body
False. Momentum is a product of an object's mass and velocity, so even if the object is small, it can have a large momentum if it has a high velocity. It doesn't need to be stationary to have a large momentum.
A small object with high density, such as a lead weight or a dense metal ball, would have a small capacity but a large mass due to the arrangement of its particles.
The size of the image formed by a small mirror will be smaller than the actual object size, while the size of the image formed by a large mirror will be larger than the actual object size. This is due to the ratio of the distance of the object to the mirror and the distance of the image to the mirror being different for small and large mirrors.