What is the magnitude of the net force acting on the kayak?

Marcelgluch · Oct 6, 2009

neutron star has a mass of 2.0 x 10^30 kg, and a radius of 5.0 x 10^3 m
suppose an object falls from rest near the surface of such a star. how fast would it be moving after it had fallen a distance of 0.010 m? (gravity constant over star, and star is not rotating)

and

a person in a kayak starts paddling, and it accelerates from 0 to 0.60 in a distance of 0.41 m if combined mass of person and kayak is 73 kg what is the magnitude of the net force acting on the kayak?

slider142 · Oct 6, 2009

Please show some work. The first question requires the equation for gravitational force, the second asks you to use the definition of force.

Marcelgluch · Oct 6, 2009

my prof wrote down some equations for the first one

Fg = G(mMn/Rn^2 = m(GMn/ Rn^2)

and then

Fg = mabut I am not sure about the second one...thats mainly why I am asking.. is because i don't know how to do it...

slider142 · Oct 6, 2009

Marcelgluch said:

my prof wrote down some equations for the first one

Fg = G(mMn/Rn^2 = m(GMn/ Rn^2)

and then

Fg = ma

but I am not sure about the second one...thats mainly why I am asking.. is because i don't know how to do it...

Both are correct. They allow you to determine the acceleration a from knowledge of the other variables in the first equation.

Marcelgluch · Oct 6, 2009

okay.. but still don't know how to solve it..

Marcelgluch · Oct 6, 2009

k i think i get the second one.. but the neutron star one still is a no go

What is the magnitude of the net force acting on the kayak?

1. What is meant by "magnitude" in this context?

2. How is the net force calculated for a kayak?

3. Can the magnitude of the net force change?

4. Is it possible for the magnitude of the net force to be zero?

5. How does the magnitude of the net force affect the motion of the kayak?

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