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example 3

example 3. Height of a Ball. Chapter 3.1. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds).

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example 3

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  1. example 3 Height of a Ball Chapter 3.1 A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds). Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function. Graph the model. Explain the meaning of the coordinates of the vertex for this model. 2009 PBLPathways

  2. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds). Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function. Graph the model. Explain the meaning of the coordinates of the vertex for this model.

  3. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds). v0 = 64 h0 = 80 v0 is the initial speed (at t = 0) in feet per second h0 is the initial height (at t = 0) in feet -16 feet per second2 is the acceleration due to gravity

  4. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds). v0 = 64 h0 = 80 v0 is the initial speed (at t = 0) in feet per second h0 is the initial height (at t = 0) in feet -16 feet per second2 is the acceleration due to gravity

  5. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds). v0 = 64 h0 = 80 v0 is the initial speed (at t = 0) in feet per second h0 is the initial height (at t = 0) in feet -16 feet per second2 is the acceleration due to gravity

  6. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds). v0 = 64 h0 = 80 v0 is the initial speed (at t = 0) in feet per second h0 is the initial height (at t = 0) in feet -16 feet per second2 is the acceleration due to gravity

  7. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds). v0 = 64 h0 = 80 v0 is the initial speed (at t = 0) in feet per second h0 is the initial height (at t = 0) in feet -16 feet per second2 is the acceleration due to gravity

  8. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Write the quadratic function that models the height (in feet) of the ball as a function of the time t (in seconds). v0 = 64 h0 = 80 v0 is the initial speed (at t = 0) in feet per second h0 is the initial height (at t = 0) in feet -16 feet per second2 is the acceleration due to gravity

  9. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function.

  10. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function.

  11. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function.

  12. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function.

  13. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function.

  14. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function.

  15. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function.

  16. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Find the t-coordinate and s-coordinate of the vertex of the graph of this quadratic function.

  17. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Graph the model. S (2, 144) t

  18. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Graph the model. S (2, 144) t

  19. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Explain the meaning of the coordinates of the vertex for this model. S (2, 144) t

  20. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Explain the meaning of the coordinates of the vertex for this model. S (2, 144) t

  21. A ball is thrown at 64 feet per second from the top of an 80-foot-high building. Explain the meaning of the coordinates of the vertex for this model. S (2, 144) 144 t

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