Final answer:
The force of friction between the boulder and the ground is equal to or greater than the applied force, resulting in no movement. When two unequal forces act on a body, the body will not move in the direction of the weaker force if the stronger force is resistive like friction.
Step-by-step explanation:
When you push sideways on a large boulder and it does not move, the statement that describes the forces involved is that the force of friction between the boulder and the ground is equal to or greater than the force you are applying. If the boulder is not moving, it means that there is no net force acting on the boulder in the direction of the applied force.
True or false: When two unequal forces act on a body, the body will not move in the direction of the weaker force. The answer is True, provided that the stronger force is a resistive force such as friction that can balance or exceed the weaker force.
In a scenario like a tug-of-war where the rope suddenly snaps, the force between the two teams was equal and opposite to keep the rope stationary, and when the rope breaks, it indicates a sudden release of tension, but no team wins since the forces were balanced at the moment of snapping.