it takes an unbalanced force to change an object's state of motion
FORCE
Yes,friction have force because if there is no force then friction cannot take place. Force is a thing 1.from which we can move from rest 2.from which we can change the state of motion 3.from which we can change the shape of an object 4.from which we can change the direction of motion of an object 5from which we can the speed of an object
You must file a motion for a Change of Venue.
Kinematics does not take forces explicitly into account. Instead, kinematics works with the motion of objects (speed or velocity). Dynamics will take forces into account explicitly. Common examples of the two would be projectile motion of objects (constant acceleration equations) and Newtonian dynamics (Newtons three laws...the second law is the sum of the forces).
Take a ball and push it an angle yo direction of motion.what do you observe? Answer-change the angle of your hand with respect to the direction of motion of the ball.Does yoo effort result in change in direction of motion of ball?
Forces take place when there is an interaction between two or more objects. These interactions can occur through contact forces, such as friction or tension, or through non-contact forces, such as gravitational or electromagnetic forces. Forces can influence the motion or deformation of objects.
for a state change to happen it must lose or gain or loose kinetic energy
Pure functions are those which do not modify the state of an object. Most often these are functions which take arguments and return a result.
All objects possess the characteristic we refer to as mass. Mass is a measure of an object's natural resistance to any force applied to it. An object may be considered as having a velocity with respect to a given reference frame. This velocity can take any value from zero to just under the speed of light. If an object experiences an applied force, that force will cause the object's velocity to change. The change is at a rate and direction that is absolutely dependant on the direction of the applied force with respect to the original direction of motion of the object. If the applied force increases then so does the rate of change of velocity. If the force and any increase is applied in a direction with the motion of the object, the result is a positive acceleration, causing an increase of speed - or velocity. If the force and any increase of that force is applied in a direction opposing the original motion of the particle, this results in a negative acceleration resulting in a decrease in the objects speed - or velocity.
Any object in motion is very likely to come to rest, but ONLY if it is acted on by resistance. The object could be anything from a speck of dust to a planet or star. Anything that touches a moving object -- such as air molecules -- will slow it down and eventually stop it. Even a planet can be stopped by dust in time. It may take billions of years, but it will stop. But an object WILL NOT stop on its own. Objects in motion tend to stay in motion; objects at rest tend to stay at rest. This is due to their inertia, which is defined as resistance to changes in velocity.
All objects possess the characteristic we refer to as mass. Mass is a measure of an object's natural resistance to any force applied to it. An object may be considered as having a velocity with respect to a given reference frame. This velocity can take any value from zero to just under the speed of light. If an object experiences an applied force, that force will cause the object's velocity to change. The change is at a rate and direction that is absolutely dependant on the direction of the applied force with respect to the original direction of motion of the object. If the applied force increases then so does the rate of change of velocity. If the force and any increase is applied in a direction with the motion of the object, the result is a positive acceleration, causing an increase of speed - or velocity. If the force and any increase of that force is applied in a direction opposing the original motion of the particle, this results in a negative acceleration resulting in a decrease in the objects speed - or velocity.
it is due to the inertia of motion .. a body tries to continue with the state it was in initially before an external force is applied on it either to take it in motion or to bring it at rest
Strictly speaking weight is the force of gravity acting on an object. It should not be confused with the objects mass. Weight ⇔ force When something is on the moon it weights less but its mass is the same. Something special about gravity is that in the absence of air friction, all objects accelerate down at the same rate irrespective of their weight because as a objects weight increases, so does its mass. Take the equation.. F = ma or (weight of an object) = (its mass) x (its acceleration) When an objects weight doubles so does it mass, so the acceleration does not change.