How do I know when the Fnet in y direction is 0, any hint i have a test tomorrow?

1 Answer
Oct 8, 2015

If the vector sum of your forces in the y-direciton is zero, then #F_{"net"}# in the y direction is zero. Also if the acceleration in the y-direction is zero (#a_y =0#), #F_{"net"}# = 0.

Explanation:

If you watch professional physicists solving a problem, they will follow the steps below. They do this for a reason; it makes solving the problem much easier! You may be tempted to skip steps, don't do it!

  1. Draw a picture of your object .

  2. Write down what you know from the problem , or can figure out from geometry ( #v_x# = 15 m/s #cos(theta)#, x = 5 m, etc. )

  3. Figure out what forces are acting on your object. These can be contact forces (things that push or pull on your object directly) or non-contact forces (long-range forces like gravity).

  4. Establish a coordinate system . Which way is +x, -x, +y and -y? It doesn't matter what you pick, as long as you are consistent. Usually we pick y to be vertical, +y to be up, x to be horizontal and +x to be towards the right, but it may be easier to use a different system (especially on ramp problems).

  5. Draw a free-body diagram of your object, showing all of the forces.

  6. Decompose the force vectors into their x and y components.

  7. Write out newton's second law for your forces in the y direction and the x direction. Be careful with your signs!

#sum F_{x} = F_{1_x}+ F_{2_x} + F_{3_x} + ... = m a_x#
#sum F_{y} = F_{1_y}+ F_{2_y} + F_{3_y} + ... = m a_y#

After all of that, if you find #sum F_{y} = F_{1_y}+ F_{2_y} + F_{3_y} =0#, then there is no net force in the y-direction. Also, from the above equations, if there is no acceleration in the y-direction, there can be no net force.