The height of a baseball (in feet) at time t (in seconds) is given by y=...

the velocity (in feet/second) of a projectile t seconds after it is launched from a height...

the velocity (in feet/second) of a projectile t seconds after it is launched from a height of 10 feet. is given by v(t)= -15.1t+145. approximate its height 3 seconds using 6 rectangles it is approximately ___ feet round final answer to nearest tenth

the velocity (in feet/second) of a projectile t seconds after it is launched from a height...

the velocity (in feet/second) of a projectile t seconds after it is launched from a height of 10 feet. is given by v(t)= -15.7t+146. approximate its height 3 seconds using 6 rectangles it is approximately ___ feet round final answer to nearest tenth Do not round until the final answer

The velocity​ (in feet/second) of a projectile t seconds after it is launched from a height...

The velocity​ (in feet/second) of a projectile t seconds after it is launched from a height of 10 feet is given by v(t) = -15.8t+144 Approximate its height after 3 seconds using 6 rectangles. It is approximately _____ Feet. ​(Round final answer to nearest tenth. Do NOT round until the final​ answer.)

1. A trough in the shape of a box holds water, with base dimensions 10 feet...

1. A trough in the shape of a box holds water, with base dimensions 10 feet long by 4 feet wide. The water level starts 7 feet high in this box, and there is a circular hole in the bottom of the box with radius 2 inches. Assume that time, t, represents seconds from when it was filled to exactly 7 feet high, and let y represent the current height of the water in the trough. a. What is the...

An arrow is propelled upward at 98 m/sec2 , (height in meters after t seconds is...

An arrow is propelled upward at 98 m/sec2 , (height in meters after t seconds is given by h = -4.9t2 + 98)t: a. Graph the equation on the given coordinate system. b. Use the leading coefficient to describe the end behavior. c. State the domain and range of the function. d. What is the vertex? What does this signify? e. Set up and solve the inequality for the interval of time the arrow will be higher than 445.9m.

If an object is propelled upward from a height of s feet at an initial velocity...

If an object is propelled upward from a height of s feet at an initial velocity of v feet per second, then its height h after t seconds is given by the equation h=−16t^2+vt+s, where h is in feet. If the object is propelled from a height of 1212 feet with an initial velocity of 9696 feet per second, its height h is given by the equation h =minus−16t^2+96 +12. After how many seconds is the height 120 feet?

An object is launched upward from a platform so that its height (in feet) above the...

An object is launched upward from a platform so that its height (in feet) above the ground t seconds after it is launched is given by the function h(t)=-16t^2 +160t+176. a. When does the object reach its maximum height? What is the maximum height? b. When does the object hit the ground? c. What is the domain and range of this function (given the context)? d. Sketch an accurate graph of this function in an appropriate window. Mark on your...

let the equation F(16) = -16t^2 + 128t +25 represent the height in feet of a...

let the equation F(16) = -16t^2 + 128t +25 represent the height in feet of a ball thrown vertically upward at time t seconds a) find the instantaneous velocity of the ball at t = 2 seconds b) find the impact velocity of the ball

Use the position equation given below, where s represents the height of the object (in feet),...

Use the position equation given below, where s represents the height of the object (in feet), v0 represents the initial velocity of the object (in feet per second), s0 represents the initial height of the object (in feet), and t represents the time (in seconds), as the model for the problem. s = ?16t2 + v0t + s0 An aircraft flying at 300 feet over level terrain drops a supply package. (a) How long will it take until the supply...

The position s of a point (in feet) is given as a function of time t...

The position s of a point (in feet) is given as a function of time t (in seconds). HINT [See Example 1.] s = √ t + 6t2; t = 9 (a) Find the point's acceleration as a function of t. s''(t) = ft/sec2 (b) Find the point's acceleration at the specified time. s''(9) = ft/sec2