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Momentum is not a force.
AIr friction will try to slow down any item moving through air, and as the speed is reduced so is the momentum.
Momentum is the speed or velocity of a moving object. It can be measured by either force of impact or air/water displaced during movement.
The law of conservation of momentum states that momentum cannot be created nor destroyed, only transferred. In other words when you hit the wall with your fist, the wall gains the momentum your fist had while it was flying through the air toward the wall.
You need to frame your question better. A movinng object will not change momentum unless a force acts upon it. A force could be supplied by many things including a collision, gravity, friction What evr happens, energy will be conserved. If friction through air reduces a body's momentum, then the momentum of the of the body will be transfered to momentum of the air particles (which is ultimately seen as heat, and is infact an increase in speed and hence momentum of the molecules
A linear air track is typically used in the study of motion in physics. Depending of the different tracks available, different experiments can be conducted. These range from proving the conservation of momentum (m1*u1 + m2*u2 = m1*v1 + m2*v2), to finding the rate of acceleration (a = difference in velocity/difference in time).
Momentum is not a force.
Firstly, gravity. Roller coasters work by dragging the train to the top of the track, then letting it roll down using the acceleration of gravity. Momentum takes it back up to the top of the next bump, having to overcome rolling friction all the way through the track. Upset stomachs are caused by the inertia and momentum of your insides. Every bit of the track involves momentum, velocity, acceleration, air resistance, etc... Stopping at the end is just an application of friction through the breaks.
During Track and Field meet, momentum can be observed almost everywhere. Especially in the field events (jumping events and throwing events) where maximizing momentum is the key to performing well. In throwing events such as javelin, shot put, hammer and discus, competitors get to apply force to the object for a brief moment of time. After that, forces acting on the objects are all against the forward motion (i.e. gravitational force, air friction…). At this point momentum is all that is left to keep it going forward.
AIr friction will try to slow down any item moving through air, and as the speed is reduced so is the momentum.
Air Traffic Control Use Radar Radio Detection and Ranging to track aircraft! Air Traffic Control Use Radar Radio Detection and Ranging to track aircraft!
they can follow clouds or storms.
well for example with the high jump in track a running start gets your momentum going so it is a little bit easier to get your body up in the air and over the bar.
No, it does not have a momentum of zero because the formula for momentum is p = m x v, therefore since the plane has a mass and it is moving, there is momentum.*p = momentum*m = mass (kg)*v = velocity (m/s)
I don't see how anything can "act against momentum"; momentum is always conserved. If there is friction, the movement of the object will be slowed down; but in this case, momentum is transferred to the air, or whatever is slowing down the object in question. Total momentum will be conserved.
To conserve momentum. Momentum before = momentum after.Dunno get your aerolas out and swing them about , since the balloon is not initially moving (when you hold the opening shut), the momentum before is mv, v = 0 so m(0) = 0 kgm/s. After you let go of it, the air pressure escapes backwards and pushes the balloon in the opposite direction,oh my god i.e. in the forward direction (Newton's 3rd law - reaction pairs). This mean that the air escaping has negative momentum and the balloon moving forward has positive momentum
Gravity, momentum, and air resistance.