Calculate Net Force on Toy Car Rolling Down Incline

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A toy car with a mass of 50g rolls down a 30-degree incline, and the net force acting on it is calculated using the formula M x G sin(30), resulting in 0.25N. The discussion highlights confusion regarding the calculation of the normal force (Fn) acting on the car as it travels down the slope. It is clarified that the normal force is not simply 0.5N; instead, it should be determined by analyzing the components of forces perpendicular to the incline. The conversation emphasizes understanding the relationship between gravitational force, normal force, and net force on an incline. Properly addressing these concepts will clarify the second part of the question.
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A toy car of mass 50g travels down a smooth incline at 30 degrees to the horizontal. Friction can be ignored.

Also Gravity is assumed to be 10ms

Calculate the net force on the car as it rolls down the slope:

For this I use M x G sin 30

so .05 x 10 sin 30 and got .25N - Hopefully this is right

The second part of this question is - Calculate the forces of the incline on the car as it travels down the slope.

I do not really understand what is being asked here - The only thing I can think it to be is Fn which would be .5N

Any help you could give me would be great.
 
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It's indeed Fn what is asked, but Fn is not .5 N on an incline.

De force of gravity and the normal force must add to give the net force.
 
It asks you the forces arising on the car due to the incline my friend.

My questions to you are:

What is frictional force? Is it a property of the body?
What is your take on Normal Force? What is its origin?
Is gravity arising due to the incline?
Is there any other force acting on the incline?

Answer these questions to your knowledge and the second part becomes a piece of meat.

©ALwAyS gAmE ž
"physixguru."
 
maca_404 said:
A toy car of mass 50g travels down a smooth incline at 30 degrees to the horizontal. Friction can be ignored.

Also Gravity is assumed to be 10ms
You mean 10 m/s^2

Calculate the net force on the car as it rolls down the slope:

For this I use M x G sin 30

so .05 x 10 sin 30 and got .25N - Hopefully this is right
Good.

The second part of this question is - Calculate the forces of the incline on the car as it travels down the slope.

I do not really understand what is being asked here - The only thing I can think it to be is Fn which would be .5N
To find the normal force, analyze force components perpendicular to the incline. (The net force in that direction must be zero.)
 

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