Use the model for projectile motion, assuming there is no air resistance and g 32 feet...
Use the model for projectile motion, assuming there is no air resistance and g = 32 feet per second per second. The quarterback of a football team releases a pass at a height of 6 feet above the playing field, and the football is caught by a receiver 35 yards directly downfield at a height of 2 feet The pass is released at an angle of 35º with the horizontal. (a) Find the speed of the football when it is...
The quarterback of a football team releases a pass at a height of 5 feet above the playing field, and the football is caught by a receiver 25 yards directly downfield at a height of 3 feet. The pass iis released at an angle of 35° with the horizontal. (a) Find the speed of the football when it is released. (Round your answer to three decimal places.) 49 77 x ft/sec (b) Find the maximum height of the football. (Round...
A baseball player at second base throws a ball 87 feet to the player at first base. The ball is thrown 5 feet above the ground with an initial velocity of 50 miles per hour and at an angle of 16 above the horizontal. At which height does the player at first base catch the bal1? Round your answer to three decimal places. 15. a. 7.576 feet b. 6.676 feet c. 5.476 feet d. 6.076 feet e5.576 feet quarterback of...
Use the model for projectile motion, assuming there is no air resistance and g = 32 feet per second per second. Determine the maximum height and range of a projectile fired at a height of 4 feet above the ground with an initial speed of 400 feet per second and at an angle of 45° above the horizontal. (Round your answers to three decimal places.) maximum height _______ ft maximum range _______ ft
Use the model for projectile motion, assuming there is no air resistance and g = 32 feet per second per second. A baseball player at second base throws a ball 90 feet to the player at first base. The ball is released at a point 5 feet above the ground with an initial speed of 60 miles per hour and at an angle of 11° above the horizontal. At what height does the player at first base catch the ball? (Round...
A projectile is launched from ground level with an initial velocity of v 0 feet per second. Neglecting air? resistance, its height in feet t seconds after launch is given by s equals negative 16 t squared plus v 0 t. Find the? time(s) that the projectile will? (a) reach a height of 80 ft and? (b) return to the ground when v 0 is 32 feet per second. ?(a) Find the? time(s) that the projectile will reach a height...
This projectile is launched on a 3-4-5 slope with an initial velocity v, of 100 feet per second at strikes a wall that is a distance d = 200 feet from the launch point. Find the height hat which the projectile strikes the wall. Report your answer in ft. hmax h
A projectile is fired in the air from a height of 125 feet. Its velocity (in feet per second)t seconds after launch is f(t), given in the following table. X f(x) 0 231 5 205 10 194 15 170 20 152 25 125 30 101 a) How fast is the projectile traveling 15 seconds after launch? | feet per second. b) How far does the projectile move between 5 seconds and 25 seconds? Estimate feet. c) How far does the...
Consider a projectile launched at a height h feet above the ground and at an angle θ with the horizontal. If the initial velocity is v0 feet per second, the path of the projectile is modeled by the parametric equations x = t(v0 cos(θ)) and y = h + (v0 sin(θ))t − 16t2. The center field fence in a ballpark is 10 feet high and 400 feet from home plate. The ball is hit h = 2 feet above the...
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Step 1 Use the following model for projectile motion to write the vector function that describes the path of the bomb at an altitude 33,500 feet, initial velocity of 540 mi/h, and an angle of elevation 0 0. r(t) (vo cos 0)ti +(vo sin e)t + initial velocity initial height e= angle of elevation acceleration due to gravity Vo h = =32 ft/sec Substitute the given values accordingly and simplify. Note: Remember to convert units...