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3.01 Rates of change

Interactive practice questions

The electrical resistance, $R$R, of a component at temperature, $t$t, is given by $R=9+\frac{t}{17}+\frac{t^2}{108}$R=9+t17+t2108.

Find $\frac{dR}{dt}$dRdt, the instantaneous rate of increase of resistance with respect to temperature.

Easy
2min

The volume of gas, $V$V, is related to the pressure, $P$P, by the equation $PV=k$PV=k, where $k$k is a constant.

Find $\frac{dV}{dP}$dVdP, the rate of increase of volume with respect to pressure.

Easy
2min

The asset value of a corporation is expected to change according to the formula $V=-4x^6-5x^5+250x^4+40000$V=4x65x5+250x4+40000.

Easy
2min

The temperature, $T$T, in degrees Celsius of a body at time $t$t minutes is modelled by $T=37+1.4t-0.02t^2$T=37+1.4t0.02t2.

Easy
6min
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Outcomes

3.1.4

use exponential functions and their derivatives to solve practical problem

3.1.6

use trigonometric functions and their derivatives to solve practical problems

3.1.9

apply the product, quotient and chain rule to differentiate functions such as xe^x, tan⁡x,1/x^n, x sin⁡x, e^(−x)sin⁡x and f(ax-b)

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