509. A car is being driven at a rate of 40 mph when the brakes are applied. The car decelerates at a constant rate of 10 ft/sec². How long before the car stops? preceding problem, calculate how far the car 510

Please solve 509 and 510, thanks!

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504. f"(x) = x² +2 505. f"(x) = ex 506. f"(x) = 1 + x 507. f"(x) = cos x 508. f(x) = 8e-2x - sinx 509. A car is being driven at a rate of 40 mph when the brakes are applied. The car decelerates at a constant rate of 10 ft/sec². How long before the car stops? 098 510. In the preceding problem, calculate how far the car travels in the time it takes to stop. 511. You are merging onto the freeway, accelerating at a constant rate of 12 ft/sec². How long does it take you to reach merging speed at 60 mph? 884 512. Based on the previous problem, how far does the car travel to reach merging speed? .ce 513. A car company wants to ensure its newest model can stop in 8 sec when traveling at 75 mph. If we assume constant deceleration, find the value of deceleration that accomplishes this. XlYXV .aer 514. A car company wants to ensure its newest model can stop in less than 450 ft when traveling at 60 mph. If we assume constant deceleration, find the value of deceleration that accomplishes this. For the following exercises, find the antiderivative of the function, assuming F(0) = 0. 515. [T] f(x) = x² +2 516. [T] f(x) = 4x - √x 517. [T] f(x) = sinx + 2x 518. [T] f(x) = e* 519. [T] f(x) = (x + 1)² xb( 522. If f(x) is the antiderivat the antiderivative of v(2x). 523. If f(x) is the antiderivat is the antiderivative of v(x) + 524. If f(x) is the antideriy is the antiderivative of (v(x))- 10 (x) svitsvitabums ar