Depict a child of South Asian descent with a joyful expression on their face, in a state of dynamic equilibrium, while sliding down a brightly colored playground slide. The child is mid-way down the slide, laughter eliciting from their lips, with their hair flying back due to the wind resistance, creating a sense of motion and energy. The backdrop is a sunny day at a local park, with other kids playing on swings and climbing frames in the background.

A child is on a playground they start to slide down a large slide. At what point is the child in dynamic equilibrium with the slide?

1-As the child is in motion as they are sliding down.

2-Forces acting on a object are balanced and the object stays in motion.
3-When Fpush=Ffriction
4-300,000 m/s
5-The people are moving much slower than the speed of light so the ground acts as a frame of reference.
100% But not all the Quick Checks are the same just to let you know

They are all right except 4.

4 is 300,000 km/s
Besides that everything else is right 😁

The answer is - The child will not reach dynamic equilibrium.

A.J and Kahlani are correct for December 2022

yas

tysm aj!

To determine at what point the child is in dynamic equilibrium with the slide, we first need to understand what dynamic equilibrium means in this context.

Dynamic equilibrium occurs when two opposing forces acting on an object are balanced, resulting in a state of constant motion with no change in velocity. In the case of a child sliding down a slide, the two opposing forces are gravity and friction.

Gravity pulls the child downward, attempting to accelerate them. Friction between the child's body and the slide opposes this motion, creating a force that tries to slow down the child's descent.

At the point of dynamic equilibrium, the force of gravity pulling the child downward is equal to the force of friction opposing the downward motion. This means that the child is neither accelerating nor decelerating.

Now, let's answer the question of at what point the child is in dynamic equilibrium with the slide.

Initially, as the child starts to slide down the slide, there is not enough friction to counteract the force of gravity, so the child accelerates. However, as the child continues to slide and gains speed, the force of friction also increases. Eventually, there will be a point where the force of friction equals the force of gravity, resulting in dynamic equilibrium.

This point of dynamic equilibrium occurs when the force of friction reaches its maximum value. It typically occurs at the bottom of the slide when the child reaches their maximum speed. At this point, the child is in dynamic equilibrium with the slide, sliding at a constant speed with no acceleration or deceleration.

It's important to note that dynamic equilibrium depends on factors such as the angle and surface of the slide, as well as the weight and size of the child. These variables can affect the point at which equilibrium is reached.