A diver jumps off a platform at an initial upward velocity of 20 feet per second into the air above a pool. The height of the diver above the water after jumping can be represented by the function: h(t)=−16t2+20t

Question

Use desmos to graph the function. Identify the x- intercept and interpret its meaning.

(2 points)
Responses

(1.25, 0); The horizontal distance of the length of the jump is 1.25 feet.
(1.25, 0); The horizontal distance of the length of the jump is 1.25 feet.

(0.625, 6.25); The diver will reach a maximum height of 6.25 feet 0.625 seconds after he jumps
(0.625, 6.25); The diver will reach a maximum height of 6.25 feet 0.625 seconds after he jumps

(1.25, 0); The diver will enter the water 1.25 seconds after he jumps
(1.25, 0); The diver will enter the water 1.25 seconds after he jumps

(0, 0); The diver jumps off the platform with an initial height of o feet.

GPT-4o mini · Answer

To analyze the function $ h(t) = -16t^2 + 20t $, we need to find the x-intercept, which is the point where the height $ h(t) $ is equal to zero. This occurs when the diver hits the water. Setting the function equal to zero: $$ -16t^2 + 20t = 0 $$ Factoring out $ t $: $$ t(-16t + 20) = 0 $$ This gives us: 1. $ t = 0 $ (the time at which the diver jumps) 2. $ -16t + 20 = 0 $ → $ t = \frac{20}{16} = 1.25 $ Thus, the x-intercept is $ (1.25, 0) $. **Interpretation:** The x-intercept $ (1.25, 0) $ means that the diver will enter the water 1.25 seconds after he jumps off the platform. Therefore, the correct response is: **(1.25, 0); The diver will enter the water 1.25 seconds after he jumps.**