The height of a cylinder is increasing at a constant rate of 10 meters

nitraiddQ

nitraiddQ

Answered question

2021-08-06

The height of a cylinder is increasing at a constant rate of 10 meters per minute, and the volume is increasing at a rate of 1135 cubic meters per minute. At the instant when the height of the cylinder is 9 meters and the volume is 354 cubic meters, what is the rate of change of the radius? The volume of a cylinder can be found with the equation V=πr2h. Round answer to three decimal places

Answer & Explanation

pattererX

pattererX

Skilled2021-08-07Added 95 answers

Given: height of a cylinder is increasing at a constant rate of 10m/min.
i.e dhdt (h: height of cylinder)
Volume is increasing at a rate of 1135 cubic meters/min.
dVdt=1135 m3/min
At the instant
V=354m3
h=9 m
Relation between volume (V), radius (r) and height (h)
V=πr2h
Differentiate above with respect ot time
[dVdt=ddt(πr2h)]
(Take constant utside and apply product rule)
[dVdt=πddt(r2h)
dVdt=πbigg[r2dhdt+hd(r2)dtbigg]
apply chain rule (above)
[dVdt=πbigg[r2dhdt+hd(r2)dt×drdhbigg]
dVdt=πbigg[r2dhdt+h2rdrdtbigg]bigg(ddx(xn)=nxn1bigg)
dVdt=πr2dhdt+2πrhdrdt]
Given: [dhdt=10 mmin
dVdt=1135 m3min
At the instant:
V=354
i.e [πr2h=354 m3
h=9m

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