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If the speed of a car with a turbo engine can be modeled as a function of time using the parabolic equation s(t)=2t^2 , how many seconds will it take the car to exceed the 65 mph?
Question. If the speed of a car with a turbo engine can be modeled as a function of time using the parabolic equation s (t)=2t^2 , how many seconds will it take the car to exceed the 60 mph?
Question: If the speed of a car with a turbo engine can be modeled as a function of time using the parabolic equation s (t)=2t2, how many seconds will it take the car to exceed the 65mph ?45678.
30 Ιουλ 2023 · Question. ANSWERED STEP-BY-STEP. If the speed of a car with a turbo engine can be modeled as a function of time using parabolic equation s (t)=2t^2, how many seconds will it take the car to exceed the 65 mph?
If the speed of a car with a turbo engine can be modeled as a function of time using the parabolic equation s(t)=2t^(2), how many seconds will it take the car to exceed the 65 mph? Here’s the best way to solve it.
If the speed of a car with a turbo engine can be modeled as a function of time using the parabolic equation s (t)=2t^2 , how many seconds will it take the car to exceed the 60 mph? Show transcript.
7 Φεβ 2023 · Question. ANSWERED STEP-BY-STEP. If the speed of a car with a turbo engine can be modeled as a function of time using the parabolic equation s(t) = 2t , how many seconds will it take the car to exceed the 65 mph? Submitted by Jacob C. Feb. 07, 2023 02:22 p.m. Instant Answer. Step 1/3. 1.
