jimmyboykun said:ok, but what about the 11m/s, does that velocity come into play?
Not a big deal, but arctan(.14) ~= 7.97.jimmyboykun said:ok so I solved the problem, and this is what I did: m*g*sin(7.96) the 7.96 is the reverse tangent.
That formulation can confuse people when thinking about e.g. a car being driven up a slope. It leads them to think that the friction between road and tyre would act down the slope. Better always to write that friction opposes relative motion of the surfaces in contact.Legaldose said:The frictional force always opposes the motion,
jimmyboykun said:thanks, but what about the solution that I solved 2,989N is that solution the magnitude and direction, or if there is there still more?
Frictional force is a force that opposes the motion of an object when it is in contact with another surface.
The direction of frictional force is always opposite to the direction of motion or the potential motion of the object.
The magnitude of frictional force is affected by the types of surfaces in contact, the normal force between the two surfaces, and the roughness of the surfaces.
The magnitude of frictional force can be calculated using the equation Ff = μN, where μ is the coefficient of friction and N is the normal force between the two surfaces.
The direction of frictional force opposes the motion of an object, while the magnitude of frictional force determines how difficult it is for the object to move. A larger frictional force will make it harder for the object to move, while a smaller frictional force will make it easier.