Uhmmm, well... this may be disappointing, but the answer is not at all. Friction is not some weird thing that never occurred to Newton. We actually have coefficients of friction that you can put into equations that will quantify how fast your cat will slide down an inclined plane versus you in your sandpaper jeans.
Every single object that exists obeys ALL of Newtons Laws
netwons 3rd law
All three of Newton's laws apply in all cases.
Newtons laws help us in life every day when trying to use are bodys to move heavy objects that the static friction and if so rolling friction even if the item is to heavy you use it to move objects around the house everyday big or small tall or short you use it no matter what to move objects
That depends on the exact circumstances. Solid friction hardly depends on the speed at all. In fluid friction, the situation is more complicated. Usually there is some range of speeds for which friction is more or less proportional to speed; at higher speeds, the force of friction may even become proportional to the square of the speed.
Every single object that exists obeys ALL of Newtons Laws
Yes, if you're using the co2 car on Earth. All of Newton's laws will affect every moving object on Earth, and your co2 car is no exception.
netwons 3rd law
work is movement, and all movement causes friction, since there is no such thing as a "perfect" or "100% efficient" tool yet.
All 3 of them (Kepler's laws of planetary motion).
Well newtons second law is f=ma of force=mass*acceleration, so when creating rockets, scientists must take into account all three of these factors. The mass or weight will determine how much friction it generates and therefor the amount of acceleration needed to surpass the friction. So newtons second law has everything to do with rockets.
All 3 of them (Kepler's laws of planetary motion).
An object in motion will stay in motion unless and until acted upon by a force like friction. So absent ALL friction, no the ball will not slow. This is part of the laws of Thermodynamics. However, if there is air friction in play, with a long course of time(of course which depends on the velocity with which the ball is moving), the pressure exerted in opposite direction by the ball, at one fine movement should make the ball stop. If considered in vacuum, then again as per Newtons laws, the ball should not stop as there would be no action by any external agency.
Because it takes all the F=μN out of our lives! F- Force in Newtons (N) μ - Greek letter Mu (Coefficient of friction with no units) N-Normal force (force perpendicular to surface measured in newtons N) (found using mass * gravity assuming you're on a flat surface) When a surface has a lot of friction, the force applied is lowered due to the higher friction coefficient. When there's more friction, it takes more force to move an object on a surface.
All three of Newton's laws apply in all cases.
well givin the mass of the earth and all the newtons laws. 545*76472325/75694= no
Air resistance, friction, and gravity