Question 14 3 pts Part 2 of 4. From Part 1, a loaded penguin sled weighing 120 N rests on a plane inclined at angle 9 = 30 to the horizontal (Fig. 6-23). Between the sled and the plane, rst consider that the sled is on smooth ice and is a frictionless surface with the inclined plane. The force F is a tension force moving in the +x direction. if the sled is in static equilibrium, then m ax = 0. Now substitute the values in and calculate the required force F to maintain equilibrium such that the sled does not slide. Question 13 3 pts Fig. 6-23 Part 1 of 4. A loaded penguin sled weighing 120 N rests on a plane inclined at angle 0 = 30 to the horizontal (Fig. 6- 23). Between the sled and the plane, first consider that the sled is on smooth ice and is a frictionless surface with the inclined plane. The force F is a tension force moving in the +x direction. Sum the forces in x and select the equation of motion in the general form due to forces on the sled. (Do not substitute the values in for this part.) Draw the FBD of the forces in your calculations. O E FX = F - mg sin 0 = m ax O E FX = F - mg cos 0 = max O E FX = F - mg sin 0 - uk Fn = m ax O E FX = F - mg sin 0 = 0 O E FX = F - mg sin 0 - us Fn = m ax