Want this question answered?
It applies to both moving and non-moving objects.
Elastic collision: objects bound against each other after the collision. - One is moving and the other is at rest. - Both objects are moving. Inelastic collision: objects stick together after the collision. - One is moving and the other is at rest. - Both objects are moving.
a moving objects momentum
Yes it does.
Objects move if they have momentum. Momentum is gained via an applied force. Therefore objects start or stop moving when a net force is working on them.
When objects move through fluids, they have to overcome friction acting on them. In this process they lose energy. Efforts are, therefore, made to minimise friction. So , objects are given special shapes.
When objects move through fluids, they have to overcome friction acting on them. In this process they lose energy. Efforts are, therefore, made to minimise friction. So , objects are given special shapes.
Something about fluids constantly moving, and particles scattering light, maybe?
Fluids can move two ways, by aerodynamics and hydrodynamics. Aerodynamics refers to gas moving around solid objects. Hydrodynamics refers to liquids moving around solid objects. Example water moving in a turbine.
keep distance with moving objects.
yes moving objects have impulse
All moving objects have Momentum.
Objects moving toward you will have a blue shift in their spectrum and objects moving away from you will have a red shift in their spectrum. This is known as a doppler shift.
It applies to both moving and non-moving objects.
shift the direction of free moving fluids such as air and water is...............------------------------> CORIOLIS EFFECT:)
Special relativity is always applicable, but only really useful when you are considering objects moving close to the speed of light. General relativity should be used when objects are very heavy or dense.
that is false as long as the objects have the same mass