The ocean pressure, P, under sea level can be modelled by :x ) 6r*7fblyde:yfi ythe function
$P(D)=\frac{D}{10}​+1$
where D is the distance in metres below sea level and P is measured in atmospheres.
A submarine cruising near the surface is submerged according to the function
$D(t)=10+5t$
where t is measured in minutes and D is the distance the submarine is below sea level, measured in metres.
1.Find the composite function $P∘D$ and explain what it means in the
context of this question
2.Find and interpret $(P∘D)(10)$.

The temperature, T, measured in degrees Celsius, above ground level inm/g 6ga2laz )e Bagan, Myanmar, can be momg2/ael z)6ga delled by the function
T(H)=37−$\frac{H}{160}$
where H is the height above ground, measured in metres.
The height, H, of a hot air balloon carrying tourists on a particular day in Bagan is given by the function
H(t)=40+10
twhere H is in metres, and t is the time in minutes after reaching cruising height.
1.Find the composite function T∘H and explain what it means in the
context of this question.
2.Find $(T∘H)(36)$ and explain what it means in the context of this
question.

A tyre manufacturing company has found that the number of tyres it prng h;rh 2x:iq(v+- naroduces, N, can be modelled by the functi xr+n ngi(:rqh 2;-vhaon
N(t)=3t−9where t is the number of hours the factory operates per day, with a minimum of 3 hours.
The profit the company makes, P, in dollars, depends on the number of tyres produced, and is modelled by the function
(N)=60N−850where N is the number of tyres produced.
1.Find the company's profit or loss if it operates for 66 hours per day.
2.Find the company's profit in terms of the hours of operation per day, t.
3.Determine the number of hours the company needs to operate the factory per day in order to earn a positive profit. Give your answer to the nearest hour.

  The subscription fee for an online project management softwarerv9r+-hzv l e+ by AB-Tech is 40 dollars per month. If the customer buys for a whole year in advance, a discount of 1 + lrerv9h+vz-30 dollars is applied.
This can be modelled by the following function, P(n), which gives the total cost when paying annually for the subscription.
P(n)=40n−130,n≥12where n is the number months.
1.Find the total cost of buying a subscription for 2 years. P =    dollars
2.Find $P^{−1}$(1790).    months
The subscription price for a different online project management tool by YZ-tech is 35 dollars per month, however customers can only purchase annually in advance, and there are no discounts. The total subscription cost of YZ-tech's software is less than AB-tech's software when n>k .
3.Find the minimum value of k.   

  The area, A, of a givveeb,- 7qe: 2j;g znxqen square can be represented by the function
A(P)​=$\frac{P^2}{16}$​,P≥0,​
where P is the perimeter of the square.
The graph of the function 0≤P≤20, is shown below.

1.Find the value of A(20).   
2.On the grid above, draw the graph of the inverse function, $A^{−1}$.
3.In the context of the question, explain the meaning of $A^{−1}$(4)=8.

  The perimeter, P, of a g/*f toz2oqfz -5p f6bgiven rectangle can be represented by the function
P(A)​=6​$\sqrt{\frac{A}{2}}$,A≥0,​where A is the area of the rectangle.
The graph of the function 0≤A≤24, is shown below.

1.Find the value of P(24). ≈   
2.On the grid above, draw the graph of the inverse function, $P^{−1}$.
3.In the context of the question, explain the meaning of $P^{−1}$(12)=8.

  The circumference, C, of a given circle can be represented by the fun0cd ,5 ou n*y4 msvt-tdo3er6xction
C(A)​=2π$\sqrt{\frac{A}{π}}$​,A≥0,​where A is the area of the circle.
The graph of the function C, for 0≤A≤24, is shown below.



1.Find the value of C(24). C ­­≈   
2.On the grid above, draw the graph of the inverse function, $C^{−1}$.
3.In the context of the question, explain the meaning of $C^{−1}$(2$π$)=$π$.

A conical funnel is used to add warw wh.sx0)v;bd(j h (gter to a scientific experiment. The funnel initially contains 3 L of water, gdw 0; () vbj.hhr(wsxand the water flows out of the funnel at a rate of 40 mL per minute.


1.Determine a function for the volume V (in millilitres) of water remaining in the funnel after t minutes.
2.If there is V mL of water in the funnel, show that the height of the water can be expressed as
h(V)=$3^3\sqrt{\frac{V}{π}}$​​ cm.
3.Find the composite function $h∘V$, and interpret what it means in the context of this question.
4.Find $(h∘V)(15)$ and explain what it means in the context of this question.

A town is planning to construct a jogging path iny30/xbq hvm,-v8 bn.rne p88 tx z9gqa a grass field 170 m long and 70 m wide. The path is to be the shape of a rectangle with two semicircles of radius x, as shown in the diagram. The sides of the rectangle connecting the circles ahqxv808 ab 8nrnp-.v tzyq mbe9gx/3,re to be 100 m long.

1.Write down a function, P, (in metres) for the perimeter of the jogging path, in terms of the radius, x.
2.Determine the domain and range of P, taking into consideration the dimensions of the grass field.
3.Find an equation for the inverse function $P^{−1}$(x). Express your answer in the form $P^{−1}$(x)=mx+c.
The designers of the path are deciding whether the total length of the path should be 300 m, 400 m, or 500 m. The designers want to maximise the perimeter of the path, but fit the path in the grass field.
4.Determine which length is most suitable, given the dimensions of the grass field.

Harry is planning on co;smdo)fi* 3.;qjw . h odjq+zcnstructing a glass window in one of the outer walls of his house. The dimensions of the wall space available are 2m x 2m. Harry wants the window to be in the shape shown in the diagram below. The bottom section is a rectangle and the top part is a semicircle of radi ); o.o*diqhcjwfjd 3+ smq.z;us x m. Harry wants the height of the rectangle to be fixed at 1 m.



1.Write down a function P (in metres) for the perimeter of the window in terms of the radius, x.
2.Determine the domain and range of P, taking into consideration the dimensions of the available wall.
3.Find an equation for the inverse function $P^{−1}$(x). Express your answer in the form $P^{−1}$(x)=mx+c.
Harry wants to maximise the size of the window, however the window frame that covers the perimeter of the window can only be 5, 6, or 7 metres long, due to manufacturing restrictions.
4.Determine which perimeter length is the best option for Harry.

Consider the following composite shape, consisting of a rectangle of +t6hwnogj:2 zq-gt u2i(63l6ccueorlength 50 cm and varying width x cm, and three-quarter circle with its center at a vertq: 63t -wg2ohguu(+n eo 6ci tzj2rc6lex of the rectangle and radius equal to the rectangle width, x cm.



1.Determine a function, L, in terms of x, for the total length of line seen in the diagram. This consists of both the perimeter of the rectangle and circumference of the three-quarter circle.2
Constraints are placed on the dimensions of the composite shape. The total length and width of the composite shape cannot exceed 100 cm and 80 cm respectively.
2.Determine the domain and range of L, taking into consideration these constraints.
3.Find an equation for the inverse function $L^{−1}(x)$. Express your answer in the form $L^{−1}$(x)=mx+c.
Suppose L can only be in multiples of 100 cm (i.e., 100 cm, 200 cm, 300 cm, ...).
4.Determine the maximum length of L that satisfies the constraints.

The radius of a cylindri+ux1dz3 u8zmk*t-k 4mf oi5b2ow1evjcal container with height x cm is
r(x)=$\frac{56}{x}$​,4≤x≤16​1.Find the range of r.
The function $r^{−1}$ is the inverse function of r.
2.(1)Find $r^{−1}(8).
(2)Interpret the answer to part (b) (i) in context.
(3)Find the range of $r^{−1}$.

A cable making machine in a factoryi o g9jwt8wl1b /vi2dxo96+es produces 5 metres of cable every 3 minutes. After 4 hours of continuous use, the machine requires 48 minutes of preventative maintenance. Apart from this preventative maintenance, the machine works continuously wit89 lvxe+t/i1iw 62sjobdg w9ohout interruption.
1.Determine the function, $L$, that represents the length of cable produced in terms of time, t, measured in days.
The company sells the cable it produces and has found that the income (in dollars) from selling L metres of cable can be modelled by the function
$I(L)=(3−\sqrt{7}​)L−500​$2.Determine a function for income, I, in terms of time, t, in days.
The company is considering an investment in a new machine that produces 6 metres of cable every 3 minutes and needs 60 minutes of preventive maintenance for every 7 hours of use.
3.Show that the income function for this new machine, in terms of the number of days, t, can be expressed as.
$I_2​(t)=(3−\sqrt{7}​)(2520t)−500​$
4.Determine a function, D, to model the difference in incomes between the two machines, in terms of the number of days, t.
The company decides to purchase the new machine only if it can recover the cost of the machine through the difference in incomes over six month period (assume 180 days).
5.Find the highest amount the company will be willing to pay for the new machine, rounded to the nearest dollar.

  James goes on a cross-country bike ride which comprises ofzmrxdl 8i7+ pe4pit 9h0qb- 4y 8 km of flat terrain followed by 12 km+ 7 bidi9tyerxqz4- 4p0phl8m of constant uphill sloping terrain. We know James can cycle at a speed of 24 km/hr in flat terrain, however we don't know his speed on sloping uphill terrain, and therefore denote this by x km/hr.
1.Show his average speed over the entire ride, in terms of x, can be expressed as
S(x)=​​$\frac{60x}{x+36}$
2.Find $S^{−1}$(x).
3.Hence find the speed he needs cycle over the sloping uphill terrain in order to obtain an average speed of 20 km/hr for the whole ride.    km/h

A function is defined by g( kl)*px ix 5ny5jh+u21mgs7z hlp;3vwx)=3-$\frac{12}{x+3}$​ for −9≤x≤9, x≠−3
1.Find the range of g.
2.Find the value of $g^{−1}$(0).

A function is define(i/c 5r7em zqld by f(x)=$\sqrt{x+5}$​, x≥−5
1.Determine the domain and range of f.
2.Find the value of $f^{−1}(\sqrt{6}​)$.

A function is definedukv-w ezb( :*s by f(x)=$\frac{\sqrt{x+1}}{x^2-4}$, for the domain −1≤x≤5, x≠2
1.Find the range of $f$.
2.Find the value of $f^{−1}(\frac{2}{5}​$).

Emily is training for a t.5qk 7nypvqnq0,.2t x8ur)s* b a kqpcriathlon and cycles at a speed of 20 km/hr for 15 minutes followed by t hours running as5qtqpu .cxpavqr k78q ,*ny.0b2k) nt a speed of 15 km/hr.
1.Show that a function to model her average speed S(t) is given by
S(t)= $\frac{20+60t}{1+4t}$​.​
2.Find $S^{−1}(t)$.
3.Hence find the time, t, if the average speed Emily travels at is 16 km/hr.

The function f is defined 2hm-yw7rjnn :-v xhl.c n/cg8by $f(x)=\frac{7x-24}{x-2}$, for −3≤x≤12,x≠2.
1.Find the range of f.
2.Find an expression for the inverse function $f^{−1}(x)$.
3.Write down the range of $f^{−1}$.