Given: u = 44 ft/s, the initial upward velocity of the ball
The height in feet after t seconds is y = 44t - 16t²
Initial time is t₁ = 2 s. The height at 2 s is h₁ = 44*2 - 16*(2²) = 24 ft
(i) When the duration is 0.5 s, the final time is t₂ = 2 +0.5 = 2.5 The height at 2.5 s is h₂ = 44*2.5 - 16(2.5²) = 10 ft The average velocity is v = (10 - 24 ft)/(0.5 s) = -28 ft/s Answer: - 28 ft/s
(ii) When the duration is 001s, then t₂ = 2.1 s h₂ = 44*2.1 - 16(2.1²) = 21.84 ft The average velocity is v = (21.84 - 24)/0.1 = -21.6 ft/s Answer: - 21.6 ft/s
(iii) When the duration is 0.05s, t₂ = 2.05 s h₂ = 44*2.05 - 16(2.05²) = 22.96 Average velocity is v = (22.96 - 24)/.05 = - 20.8 ft/s Answer: - 20.8 ft/s
(iv) When the duration is 0.01 s, t₂ = 2.01 s h₂ = 44*201 - 16(2.01²) = 23.7984 ft v = (23.7984 - 24)/0.01 = - 20.16 ft/s Answer: - 20.16 ft/s
As the duration gets smaller, the computed average velocity approaches the true value at 2 s, because it is the derivative of y with respect to t.
The distance between the points and the y-axis will be the value of the <em>x</em> coordinate, as <em>x</em> is the horizontal distance from 0 and the y-axis.