Three dimensions:
Height
Width
Length
The size of an object has little to do with whether it will float. Size relative to weight, or density, is what determines bouyancy. If the object weighs less than the amount of water it can displace, it floats.
Yes, the size of an object affects its vibration and pitch. Larger objects tend to vibrate at lower frequencies, resulting in lower pitches, while smaller objects vibrate at higher frequencies, leading to higher pitches. The size of an object determines the length of its vibration cycle, which in turn determines the pitch produced.
The buoyant force acting on an object in a fluid is determined by the volume of the object displaced by the fluid. This volume is known as the displaced fluid volume, and it depends on the shape and size of the object in relation to the fluid.
The size of the normal force and coefficient of friction determines the size of frictional force.
The mass of an object determines its inertia. Inertia is the resistance of an object to changes in its motion, and objects with greater mass have greater inertia.
The shadow of a groundhog or any object on the ground is determined by the position of the object in relation to a light source, such as the sun. The angle and intensity of the light hitting the object affects the size and shape of the shadow it casts.
The property of matter that determines how something feels is texture. Texture refers to the surface quality or feel of an object, such as smooth, rough, soft, or hard, based on the arrangement and size of its particles.
The location and size of the image produced by a converging lens are determined by the object distance and the focal length of the lens. The image is formed on the opposite side of the lens as the object when the object is beyond the focal point (real image), and the size of the image depends on the object distance and focal length according to the lens formula.
The rate at which magma cools determines the size of the mineral crystal.
Net force determines the motion of the object. If the net force acting on an object is not zero, the object will accelerate in the direction of the net force.
when there is a pull of an object towards the grand
The size determines on the schools size