Respuesta :
Answer:
Part A:
(a): -121.26 ft/s.
(b): -121.13 ft/s.
(c): -121.052 ft/s.
(d): -121.026 ft/s.
Part B:
-121.00 ft/s.
Explanation:
Given that the height of the balloon after t seconds is
[tex]\rm y(t) = 35 t-26t^2.[/tex]
The average velocity of an object is defined as the total distance traveled by the object divided by the time taken in covering that distance.
[tex]\rm v_{av} = \dfrac{y_2-y_1}{t_2-t_1}[/tex]
where,
[tex]\rm y_2,\ y_1[/tex] are the positions of the object at time [tex]\rm t_1[/tex] and [tex]\rm t_2[/tex] respectively.
Part A:
- For the average velocity for the time period beginning when t=3 and lasting .01 sec.
For this case,
[tex]\rm t_1 = 3\ sec.\\t_2 = 3+0.01\ sec = 3.01\ sec.\\\\Therefore, \\\\y_1 = 35\cdot 3-26\cdot 3^2=-129\ ft.\\y_2 = 35\cdot 3.01-26\cdot 3.01^2=-130.2126\ ft.\\\\\Rightarrow v_{av}=\dfrac{-130.2126-(-129)}{3.01-3}=-121.26\ ft/s.[/tex]
- For the average velocity for the time period beginning when t=3 and lasting .005 sec.
For this case,
[tex]\rm t_1 = 3\ sec.\\t_2 = 3+0.005\ sec = 3.005\ sec.\\\\Therefore, \\\\y_1 = 35\cdot 3-26\cdot 3^2=-129\ ft.\\y_2 = 35\cdot 3.005-26\cdot 3.005^2=-129.60565\ ft.\\\\\Rightarrow v_{av}=\dfrac{-129.60565-(-129)}{3.005-3}=-121.13\ ft/s.[/tex]
- For the average velocity for the time period beginning when t=3 and lasting .002 sec.
For this case,
[tex]\rm t_1 = 3\ sec.\\t_2 = 3+0.002\ sec = 3.002\ sec.\\\\Therefore, \\\\y_1 = 35\cdot 3-26\cdot 3^2=-129\ ft.\\y_2 = 35\cdot 3.002-26\cdot 3.002^2=-129.2421\ ft.\\\\\Rightarrow v_{av}=\dfrac{-129.2421-(-129)}{3.002-3}=-121.052\ ft/s.[/tex]
- For the average velocity for the time period beginning when t=3 and lasting .001 sec.
For this case,
[tex]\rm t_1 = 3\ sec.\\t_2 = 3+0.001\ sec = 3.001\ sec.\\\\Therefore, \\\\y_1 = 35\cdot 3-26\cdot 3^2=-129\ ft.\\y_2 = 35\cdot 3.001-26\cdot 3.001^2=-129.121\ ft.\\\\\Rightarrow v_{av}=\dfrac{-129.121-(-129)}{3.001-3}=-121.026\ ft/s.[/tex]
Part B:
The instantaneous velocity of the balloon at the given time is defined as the rate of change of its position at that time.
[tex]\rm v(t) = \dfrac{dy}{dt}\\=\dfrac{d}{dt}\left ( 35 t-26t^2\right )\\\\=35-26\times 2t.\\\\At\ t=3,\\\\v(t)=35-26\times 2\times 3=-121.00\ ft/s.[/tex]
Note: The negative sign with all the velocities indicates that the direction of these velocities are downwards.
