Answer:
The speed of the object at time, t=4 is [tex]20ms^{-1}[/tex]
Step-by-step explanation:
The speed is calculated using the formula;
[tex]Speed=\frac{Distance}{Time\:taken}[/tex]
The distance covered by the object is given in terms of t, as
[tex]s(t)=-2t^2+28t[/tex]
At time t=4, the distance covered by the object is;
[tex]s(4)=-2(4)^2+28(4)[/tex]
[tex]s(4)=80m[/tex]
The speed can now be calculated by substituting t=4 and distance 80 meters to obtain;
[tex]Speed=\frac{80}{4} =20ms^{-1}[/tex]
Answer:
12 m/sec.
Step-by-step explanation:
The height of an object thrown upward from the surface of a planet is given by the function s(t) = - 2t² + 28t.
Here t = time
and s(t) = height in time t
Since the object has been thrown upwards under gravity so speed of ball will decrease with the time.
That means it we calculate rate of change in speed, [tex](\frac{ds}{dt})[/tex]
We can get the velocity at any moment of time.
So we will differentiate or find the derivative of the given expression.
s(t) = -2t² + 28t
[tex]\frac{d[s(t)]}{dt}=\frac{d[-2t+28t^{2}] }{dt}[/tex]
V(t) = (-4t +28 )
Now at t = 4 velocity will be
V (4) = -4 × 4 +28 = -16 +28 = 12 m/sec.
The speed of the object is 12 meter per second.
