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习题练习:Differential Calculus



 作者: admin发布日期: 2024-07-31 00:03   总分: 127分  得分: _____________

答题人: 匿名未登录  开始时间: 24年07月31日 00:03  切换到: 整卷模式

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1#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Note: In this question, distance is in metmme9t0f4i)wk pu0 oc2 ,d gu7gres and time is in seconds.
A tennis ball is thrown in the air. Its height h above the ground after time t is given by

h(t)=-5 $t^{2}+20 t+4$,$ \text { for } 0 \leq t \leq 4 $.

1. Find $h^{\prime}(t)$ .  (代数式) 
2. Find the maximum height attained by the ball.   

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2#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let f(x)=$e^{3 x}$ . The line L is the tangent to the curve of f at (0,1) . Find the equation of L in the form y=m x+c .  (代数式) 

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3#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { Let } f(x)=2 x^{2}-5 x+7 \text {. The line } L \text { intersects } f \text { at } \mathrm{P}(3,10) \text { and is perpendicular to the tangent to the curve of } f \text { at } \mathrm{P} \text {. Find the equation of } L \text { in the form } y=m x+c \text {. }$  (代数式) 

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4#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { Find the equation of the tangent to the curve } y=e^{2 x-4}-x \text { at the point where } x=2 \text {. }$ (代数式) 

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5#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $f(x)=e^{-3 x}$ .
1. Write down $f^{\prime}(x), f^{\prime \prime}(x) $ and $f^{\prime \prime \prime}(x)$ .$f^{\prime}(x) $  (代数式) 
$f^{\prime \prime}(x) $  (代数式) 
$f^{\prime \prime \prime}(x) $  (代数式) 
2. Find an expression for $ f^{(n)}(x)$ .$f^{(n)}(x)$  (代数式) 

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6#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let f(x)=0.5 $x^{3}-3.2 x $. There is a local maximum at point A and a local minimum at point B .
1. 1. Find the coordinates of point A .
2. Find the coordinates of point B .
2. Find the coordinates of the point of inflection of f .
3. Write down the values of x for which the graph of f has a negative rate of change.
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7#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f^{\prime}(x)=x^{3}-9$ $x^{2}+24 x+3 $.
1. There are two points of inflection on the graph of f . Write down the x -coordinates of these points.
2. Let $h(x)=f^{\prime \prime}(x)$ . Explain why the graph of h has no points of inflection.
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8#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider $f(x)=x^{3}-\frac{p}{x}$, $x \neq 0$ , where p is a constant.
1. Find $f^{\prime}(x)$ .  (代数式) 
2. There is a minimum value of f(x) when x=1 . Find the value of p .   

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9#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A particle moves in a straight line 65 8blbsuef 4 let*wk2with velocity $v(t)=2 t-0.3 t^{3}+2$ , for $t \geq 0$ , where v is in $\mathrm{ms}^{-1}$ and t in seconds.
1. Find the acceleration of the particle after 2.2 seconds.   
2. a. Find the time when the acceleration is zero.   
b. Find the velocity when the acceleration is zero.   

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10#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The diagram shows part of the gra3 gu*mx/c2m:wi 7rbre ph of y=f ′(x). The x-intercepts are at points A and C. There is a minimum at point B and a maxb i/c :2*7ummx3rgewrimum at point D.


1. 1. Write down the value of $f^{\prime}(x)$ at A .
2. Hence, show that A corresponds to a maximum on the graph of f .
2. Which of the points A, B, C, D corresponds to a minimum on the graph of f .
3. Which of the points A, B, C, D corresponds to a point of inflection of f . Justify your answer.
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11#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The following diagram show part o v::hg gjyk e/t cnwpm4z04ha1 .)tzl4f the graph of y=f(x).



The graph has a local maximum at A , where x=-2 , and a local minimum at B , where x=8 .
1. On the graph above, sketch the graph of $y=f^{\prime}(x)$ .
2. Write down in order from least to greatest: $f(-2), f^{\prime}(8)$, $f^{\prime \prime}(-2) $.
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12#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { Consider the function } f(x)=\frac{2 x}{\cos x} \text {. Find } f^{\prime}(\pi) \text {. }$   

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13#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The following diagram shows the graph of f ′2(jz muiq,cn x/ca-zf/ ri:a 0,b nyz/, the derivative of f.



The points $\mathrm{M}(-\sqrt{2},-60)$ and $\mathrm{N}(\sqrt{2},-60)$ lie on the graph of $f^{\prime}$ . The point $\mathrm{P}(\sqrt{2}, 40)$ lies on the graph of the function f .
1. Write down the gradient of the curve of f at P .   
2. Find the equation of the tangent to the curve of f at P .  (代数式) 

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14#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=k x^{3}$ .
1. Show that the point $\mathrm{P}(2,8 k)$ lies on the curve of f .

At P , the normal to the curve is parallel to $y=\frac{1}{6} x $.
2. Find the value of k .
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15#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $f(x)=4 x \sin (2 x)$ .
1. Find $f^{\prime}(x)$ .  (代数式) 
2. Find the gradient of the curve when $ x=\frac{\pi}{2}$ .   

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16#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $f(x)=6 x-\ln x $, for x>0 .
1. Find $f^{\prime}(x)$ .  (代数式) 
2. Find $f^{\prime \prime}(x)$ .  (代数式) 
3. Solve $f^{\prime}(x)=f^{\prime \prime}(x)$ .   

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17#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the curve $ y=\frac{2 x}{1+x}$,$ x \in \mathbb{R}$,$ x \neq-1$.
1. Find $\frac{\mathrm{d} y}{\mathrm{~d} x} $.  (代数式) 
2. Determine the equation of the normal to the curve at the point $ \mathrm{P}(-2,4) $.  (代数式) 

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18#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let f(x)=p x^{3}-q x . At x=0 , the gradient of the curve of f is 2 . Given that $ f^{-1}(12)=2 $, find the value of p and q . p =    q =   

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19#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A function f(x) has derivative -sx -ar4.b3yi r-czqs $f^{\prime}(x)=6 x^{2}-24 x$ . The graph of f has an x -intercept at x=1 .
1. Find f(x) .  (代数式) 
2. The graph of f has a point of inflexion at x=k . Find k .   
3. Find the values of x for which the graph of f is concave-up. x>  

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20#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $ f(x)=x^{2} e^{x}$ and $g(x)=4 x-x^{2}$ .
1. Find $f^{\prime}(x)$ .  (代数式) 
2. Find the x -coordinate where the tangents of f(x) and g(x) are parallel.   

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21#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A farmer wants to build a rectangular enclosure for his chickens.vr77kyn 46f -tq3)iaoimk( df The area of the eoti-r4dv7(a6)3iyqfk n mk7fnclosure must be 350 $\mathrm{~m}^{2}$ . The fencing used for the side A B costs \$ 13 per metre. The fencing for the other three sides costs $ 4 per metre. The farmer wants the cost of the enclosure to be a minimum. Find the minimum cost.   


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22#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The function f is definek4v enhp fmuk 7x .b+9tq1rx.;d for all $x \in \mathbb{R}$ . The tangent to the graph of f at x=3 has equation y=4 x-2 .
1. Write down the value of $ f^{\prime}(3)$ .   
2. Find f(3) .

The function g is defined for all $ x \in \mathbb{R}$ where $g(x)=11-2 x^{2}$ and $ h(x)=f(g(x)) $.   
3. Find h(2) .   
4. Hence, find the equation of the tangent to the graph of h at x=2 .  (代数式) 

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23#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
$\text { A function } f \text { is defined by } f(x)=-x^{5}+e^{-x}+2, x \in \mathbb{R} \text {. By considering } f^{\prime}(x) \text {, determine whether } f \text { is a one-to-one or many-to-one function. }$
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24#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let f(x)=g(x) h(x) , where i dh*8 cufex(b*u1w+f g(3)=6, h(3)=2, $g^{\prime}(3)=4 $ and $h^{\prime}(3)=1$ . Find the equation of the normal to the graph of f at x=3 .  (代数式) 

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25#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the curve nnd/wkv t8+h1 $y=\frac{9}{5-x}+\frac{1}{x-1}$ .
Find the x -coordinates of the points on the curve where the gradient is zero.      

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26#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the function f(x)=ln (2 x-1) . Let point A be the point on the curve z,tr2vedf-7,jdem j ue.u +t 9 3wl)iowhere x=3 rw+tjeje2- ifd ,3l,. 9 uutmevoz7)d .
1. Write down the gradient of the curve at A .   
2. The normal to the curve at A cuts the x -axis at P . find the coordinates of P . (a,b) a=   b=  

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27#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=\frac{5 x}{e^{3 x}}$ , for $0 \leq x \leq 10 $.
1. Sketch the graph of f .
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28#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
$\text { A particle } P \text { starts from a point } O \text { and moves along a horizontal straight line. Its velocity } v \mathrm{~ms}^{-1} \text { after } t \text { seconds is given by }$

The following diagram shows the graph of v.


1. Find the initial velocity of particle P .
2. Find the acceleration of the particle in the first second.
3. How many times does the particle change direction in the first 8 seconds. Explain your answer.
4. Find the total distance travelled by the particle in the first 8 seconds.
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29#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $f(x)=\frac{g(x)}{h(x)}+15$ , where g(5)=30, h(5)=10, $g^{\prime}(5)=20 $ and $h^{\prime}(5)=5$.
Find the equation of the normal to the graph of f at x=5 .  (代数式) 

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30#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the function f defin3lqw;oggzm68ol) l/vsq6a i1 ed by $ f(x)=\ln \left(4 x^{2}-9\right) $ for $x>\frac{3}{2}$ . The following diagram shows part of the graph of f which crosses the x -axis at point A , with coordinates (a, 0) . The line L is the tangent to the graph of f at the point B .



1. Find the exact value of a .   
2. Given that the gradient of L is $\frac{1}{2}$ , find the x -coordinate of B .   

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31#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The following diagram shows the graph of f grvlf8-zzio 0u hwu:7 h,8 a,a′ , the derivative of f.


The graph of $f^{\prime}$ has a local maximum at A , a local minimum at B and passes through $\mathrm{P}(2,-3)$ .
1. The point $ \mathrm{Q}(2,6)$ lies on the graph of the function f .
1. Write down the gradient of the curve of f at Q .
2. Find the equation of the normal to the curve of f at Q .
2. Determine the concavity of the graph of f when 2
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32#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A particle moves in a straigf)minmiau( f7 ;v.r6rht line and its velocity, v $\mathrm{~ms}^{-1} $, at time t seconds, is given by $v(t)=\left(t^{2}-2\right)^{2}$ , for $0 \leq t \leq 2 $.
1. Find the initial velocity of the particle.
2. Find the value of t for which the particle is at rest.
3. Find the total distance travelled by the particle in the first 2 seconds.
4. Show that the acceleration of the particle is given by a(t)=4 $t^{3}-8 t$ .
5. Find the values of t for which the velocity is positive and the acceleration is negative.
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33#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
$\text { Let } f(x)=x^{3}+3 x^{2}-9 x+k \text {. Part of the graph of } f \text { is shown below. The graph of } f \text { has a local maximum at } \mathrm{A} \text {, a local minimum at } \mathrm{B} \text { and a point of inflection at } \mathrm{C} \text {. }$



1. 1. Find $f^{\prime}(x)$ .
2. Find $f^{\prime \prime}(x)$ .
2. Find the x -coordinate of the point of inflection at C .

Given that f(-1)=14 .
3. 1. Find f(0) .
2. Hence, find the coordinates of the local maximum $\mathrm{A}(x, y)$ and justify your answer.
4. Write down in order from least to greatest $f^{\prime \prime}(\mathrm{B})$, $f^{\prime}(\mathrm{B}), f(\mathrm{~B})$ .v
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34#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The values of the functions f and g and tb 6j4 rvle1b,yheir derivatives for x=3 and x=7 are shown in theblry ,ev6jb 41 following table.



Let h(x)=f(x) g(x) .
1. Find h(3) .   
2. Find the equation of the normal to h when x=7 .  (代数式) 

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35#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $ f(x)=\frac{\ln x}{x}$ , for x>0 .
1. Find $f^{\prime}(x)$ .
2. The graph of f has a maximum at point P . Find the coordinates of P .
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36#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { Let } f(x)=x^{2}-3 x+2 \text {, for } x \in \mathbb{R} \text {. The following diagram shows part of the graph of } f \text {. }$



The graph of f crosses the x -axis at the point $\mathrm{P}(1,0)$ and at the point $\mathrm{Q}(2,0)$ .
1. Show that $f^{\prime}(1)=-1$ .

The line L is the normal to the graph of f at P .   
2. Find the equation of L in the form y=m x+c .  (代数式) 

The line L intersects the graph of f at another point R , as shown in the following diagram.



3. Find the x -coordinate of R .   
4. Find the area of the region enclosed by the graph of f and the line L . y =   

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37#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Jack makes an open container in the shape of a c(jln qen vgmal*paj (0,s;e 4x+m-9rguboid with square base, as shown in the followingp*exraamj g04 e9 n;,nllm(j-sv g(+q diagram.


The container has base length $x \mathrm{~m}$ and height $y \mathrm{~m}$ . The volume is $32 \mathrm{~m}^{3}$ .
Let A(x) be the outside surface area of the container.
1. Show that $A(x)=\frac{128}{x}+x^{2}$.  (代数式) 
2. Find $A^{\prime}(x)$ .  (代数式) 
3. Given that the outside surface area is a minimum, find the base length of the container.   
4. Jack coats the outside of the container with waterproof resin. A can of resin covers a surface area of $5 \mathrm{~m}^{2}$ and costs $ 15 . Find the total cost of the cans needed to coat the container.   

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38#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $ f(x)=24-2 x^{2}$ , for x $\in \mathbb{R}$ . The following diagram shows part of the graph of f and the rectangle OPQR , where R is on the positive x -axis, P is on the y -axis and Q is on the graph of f .




Find the coordinates of point R(x,y) that gives the maximum area of OPQR.x =    y =   

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39#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the functioni4o e80 o*ax-xus /snn $ f(x)=\frac{4 x^{2}+p x}{x+1}$ , where $x \neq-1$ and $p \in \mathbb{R}$ .
Find the value of p for which the graph of f has exactly one point with a gradient of zero.   

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40#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $ f(x)=\left(x^{2}+a\right)^{5} $.
In the expansion of the derivative, $f^{\prime}(x)$ , the coefficient of the term in $ x^{5} $ is 960 . Find the possible values of a .±   

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41#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { A closed cylindrical can with radius } r \mathrm{~cm} \text { and height } h \mathrm{~cm} \text { has a volume of } 24 \pi \mathrm{cm}^{3} \text {. }$


1. Express h in terms of r .  (代数式) 

The material for the base and top of the can costs 15 cents per $\mathrm{cm}^{2}$ and the material for the curved side costs 10 cents per $\mathrm{cm}^{2}$ . The total cost of the material, in cents, is C .
2. Show that C=30 $\pi r^{2}+\frac{480 \pi}{r}$ .  (代数式) 
3. Given that there is a minimum value for C , find this minimum value in terms of $\pi$ .   

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42#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let f(x)=$\sin (3 x)$ and g(x)=$\ln (2 x+1)$ .
1. a. Find $ f^{\prime}(x)$ ;  (代数式) 
b. Find $g^{\prime}(x)$ .  (代数式) 
2. Let $h(x)=f(x) \times g(x)$ . Find $h^{\prime}\left(\frac{\pi}{2}\right)$ .   

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43#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The values of the functions f and ncc swl)k,x 47g and their derivatives for x=2, x=3 and x=6 are sc4k s)cn,xl w7hown in the following table.


1. Evaluate $\int_{2}^{3} g^{\prime \prime}(x) \mathrm{d} x $.   
2. Let $k(x)=\frac{f(x)}{g(x)}$ . Find $k^{\prime}(2)$ .   
3. Let $h(x)=f(g(x))$ . Find the equation of the tangent to h at x=6 .  (代数式) 

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44#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The displacement, s , in metres, of a particle t seconds after it passe-gft pg,rf4(qs through the origin is given-,f 4q(pgrfgt by the expression $s=\ln \left(3+t-2 e^{-t}\right)$,$ t \geq 0$ .
1. Find an expression for the velocity, v , of the particle at time t .  (代数式) 
2. Find an expression for the acceleration, a , of the particle at time t .  (代数式) 
3. Find the acceleration of the particle at time t=0 .   

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45#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A particle P moves along a straight 3 94+uusvrntd38boc l line so that its velocity, $v \mathrm{~ms}^{-1}$ , after t seconds, is given by $v=\sin 3 t-2 \cos t-2$ , for $0 \leq t \leq 6$ . The initial displacement of P from a fixed point O is 5 metres.
1. Find the displacement of P from O after 6 seconds.

The following sketch shows the graph of v .

2. Find when the particle is first at rest.
3. Write down the number of times the particle changes direction.
4. Find the acceleration of P after 2 seconds.
5. Find the maximum speed of P .
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46#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the curve $ y=(k x-1) \ln (2 x)$ where $ k \in \mathbb{R}$ and x>0 .
The tangent to the curve at x=2 is perpendicular to the line $y=\frac{2}{5+4 \ln 4} x$ .
Find the value of k .   

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47#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { Consider } f(x), g(x) \text { and } h(x)=(f \circ g)(x) \text {, for } x \in \mathbb{R} \text {. Given that } g(5)=8, g^{\prime}(5)=2 \text { and } f^{\prime}(8)=-4 \text {, find the gradient of the normal to the curve } y=h(x) \text { at } x=5 \text {. }$   

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48#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  

The graph of f has a minimum at $\mathrm{P}(4,8)$ and a maximum at $\mathrm{Q}(12,16) $.
1. a. Find the value of c .   
b. Show that $k=\frac{\pi}{8} $.   
c. Find the value of a .   

The graph of g is obtained from the graph of f by a translation of $\binom{d}{0}$ .
The minimum point on the graph of g has coordinates (6.5,8) .
2. a. Write down the value of d .   
b. Find g(x) .  (代数式) 

The graph of g changes from concave-up to concave-down when $x=\nu$ .
3. a. Find $\nu$ .   
b. Hence, or otherwise, find the maximum positive rate of change of g .≈   

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49#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The displacement, s , in metres, of a particle t seconds after i(qh)g n:p,glw t passes through the origin is given by the expressil hpgq),w(n:g on $s=\ln \left(1+t e^{-t}\right)$,$ t \geq 0$ .
1. Find an expression for the velocity, v , of the particle at time t .  (代数式) 
2. Find an expression for the acceleration, a , of the particle at time t .  (代数式) 
3. Find the acceleration of the particle at time t=0 .   

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50#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { Use L'Hôpital's rule to determine the value of } \lim _{x \rightarrow 0} \frac{x^{2} e^{2 x}}{1-\cos x}$   

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51#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Use L'Hôpital's rule to fikdld(pb1v c d* 9g:pd(nd

$\lim _{x \rightarrow 0} \frac{\arctan (3 x)}{\tan (4 x)}$

  

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52#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Note: In this question, distance is in metres and time iqp+yy a2w 4cb(.z* ax+z.p ucps in seconds.
A particle P moves in a straight line for six seconds. Its acceleration during this period is given by $a(t)=-2 t^{2}+13 t-15 $, for $0 \leq t \leq 6$ .
1. Write down the values of t when the particle's acceleration is zero.      
2. Hence or otherwise, find all possible values of t for which the velocity of P is increasing.$a\lt t \lt b$ a =    b =   

The particle has an initial velocity of 7 $\mathrm{~ms}^{-1}$ .
3. Find an expression for the velocity of P at time t .  (代数式) 
4. Find the total distance travelled by P when its velocity is decreasing.   

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53#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { The diagram below shows the graph of } f(x)=a \sin (k(x-d))+c \text {, for } 2 \leq x \leq 14 \text {. }$



The graph of f has a maximum at $\mathrm{P}(5,15)$ and a minimum at $\mathrm{Q}(11,-5)$ .
1. Write down the value of:
a. a ;   
b. c .   
2. a. Show that $k=\frac{\pi}{6}$ .   
b. Find the smallest possible value of d , given d>0 .   
3. Find $f^{\prime}(x)$ .  (代数式) 
4. At a point R , the gradient is $-\frac{5 \pi}{3}$ . Find the x -coordinate of R .   

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54#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $f(x)=\sqrt{2 x+1}$ for $x \geq-0.5$ .
1. Find
a. $f(12)$ ;   
b. $f^{\prime}(12)$   

Consider another function g(x) . Let P be a point on the graph g . The x -coordinate of P is 12 . The equation of the tangent to the graph at P is y=x+3 .
2. Write down $g^{\prime}(12)$ .   
3. Find g(12) .   
4. Let $ h(x)=f(x) \times g(x) $. Find the equation of the tangent of h at the point where x=12 .  (代数式) 

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55#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $f(x)=\sin x-\sqrt{3} \cos x, 0 \leq x \leq 2 \pi$ .
The following diagram shows the graph of f .

The curve crosses the x -axis at A and C and has a maximum at point B .
1. Find the exact coordinates of A and of C . A (a,b) a =    b =    C (c,d) c =    d =   
2. Find $f^{\prime}(x) $.  (代数式) 
3. Find the coordinates of B . B (a,b) a =    b =   

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56#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=\frac{2 x+1}{x-3}$,$ x \in \mathbb{R}$,$ x \neq 3 $
1. a. Find the equation of the vertical and horizontal asymptote of f .
b. Write down the coordinates of the point Q at which the asymptotes intersects.
c. Find the x and y intercepts of f .
2. Show that $f^{\prime}(x)=-\frac{7}{(x-3)^{2}}$ .
3. Hence, find the equation of the tangent at point $\mathrm{P}(4, y) $.
4. The point S also lies on the graph of f . The tangent to S is parallel to the tangent at point P . Find the coordinates of S .
5. Show that Q is the midpoint of [PS].
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57#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $f(x)=16-x^{2}$ , for $x \in \mathbb{R}$ .
1. Find the x -intercepts of the graph of f . x = $\pm $   

The following diagram shows part of the graph of f .

Rectangle ABCD is drawn with $\mathrm{A} \& \mathrm{~B}$ on the x -axis and $\mathrm{C} \& \mathrm{D} $ on the graph of f . Let $\mathrm{OA}=a$ .
2. Show that the area of ABCD is $32 a-2 $a^{3}$$ .  (代数式)  = 0
3. Hence find the value of a>0 such that the area of ABCD is a maximum.   

Let $g(x)=(x-4)^{2}+k$ , for $x \in \mathbb{R}$ , where k is a constant.
4. Show that when the graphs of f and g intersect, 2 x^{2}-8 x+k=0 .  (代数式) 
5. Given that the graphs of f and g intersect only once, find the value of k .   

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58#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  In a triangle $\mathrm{ABC}, \mathrm{AB}=2 \mathrm{~cm}$, $\mathrm{CBA}=\frac{\pi}{4}$ and $\mathrm{BA} \mathrm{A}= x $ .
1. Show that $\mathrm{AC}=\frac{2}{\cos x+\sin x}$ .  (代数式) 
2. Given that AC has a minimum value, find the value of x for which this occurs.   

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59#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The curve C is defined by t,m qkp20rx1; p 3j6r1 svnai;n ovop,qhe equation $x^{2} y+\ln (x y)=1$, x $\lt$0, y $\lt$0 .
1. Find $\frac{\mathrm{d} y}{\mathrm{~d} x}$ in terms of x and y .  (代数式) 
2. Determine the equation of the tangent to C at the point $\mathrm{P}(1,1)$.  (代数式) 

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60#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The function f is defined by 5rlovxc n)(k1zd2(2,de bwkpg )s7ar




where a and b are real constants.
Given that both f and its derivative are continuous at t=4 , find the value of a and the value of b . a =    b =   

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61#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Use L'Hôpital's rule 9*x g a1 n*3ek0b8a2g lqlhznfto determine the value of$\lim _{x \rightarrow 0} \frac{2 \sin ^{2}(x)}{\ln \left(1+x^{2}\right)}$   

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62#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
$\text { Consider a function with domain } a\lt x \lt b \text {. The following diagram shows the graph of } f^{\prime} \text {, the derivative of } f \text {. }$



From the graph above p, 0 and s are x -intercepts of $f^{\prime}$ , and there is a local minimum at x=q and a local maximum at x=r .
1. Find all the values of x where the graph of f is increasing. Justify your answer.
2. Find the value of x where the graph of f has a local minimum. Justify your answer.
3. Find the value of x where the graph of f has a local maximum. Justify your answer.
4. Find the values of x where the graph of f has points of inflexion. Justify your answer.

The total area of the region enclosed by the graph of $f^{\prime}$ and the x -axis between x=p and x=s is 25 .
5. Given that f(p)+f(s)=13 , find the value of f(0) .
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63#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
In a triangle $\mathrm{ABC}$, $\mathrm{BÂC}=60^{\circ}$, $\mathrm{AB}=(1-x) \mathrm{cm}$, $\mathrm{AC}=(x+3)^{2} \mathrm{~cm}$,$-3\lt x \lt 1$
1. Show that the area, $A \mathrm{~cm}^{2}$ , of the triangle is given by

$A=\frac{\sqrt{3}}{4}\left(9-3 x-5 x^{2}-x^{3}\right)$ .

2. a. Calculate $\frac{\mathrm{d} A}{\mathrm{~d} x}$ .
b. Verify that $\frac{\mathrm{d} A}{\mathrm{~d} x}=0 $ when $x=-\frac{1}{3}$ .
c. 1. Find $\frac{\mathrm{d}^{2} A}{\mathrm{~d} x^{2}}$ and hence verify that $ x=-\frac{1}{3}$ gives the maximum area of triangle A B C .
2. Calculate the maximum area of triangle A B C .
3. Find the length of [BC] when the area of triangle A B C is a maximum.

[/BC]
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64#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { Let } f(x)=x^{3}+2 x^{2}+k x-3 \text {. Part of the graph of } f \text { is shown in the following diagram. }$



The graph of f crosses the y -axis at the point Q . The line L is tangent to the graph of f at Q .
1. Find the coordinates of Q . y =   
2. a. Find $f^{\prime}(x)$ . f'(x) =  (代数式) 
b. Hence find the equation of L in terms of k . y =  (代数式) 

The graph of f has a local maximum at the point P . The line L passes through P .
3 . Find the value of k .   

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65#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider $f(x)=x \ln (x)-x$ , for x>0
1. Find f(1) .
2. Solve f(x)=0 .

The graph of f has a local minimum at point $\mathrm{P}(x, y)$ .
3. Find the coordinates of point P and explain why it is a local minimum.
4. Find the set of x values for which f is increasing.
5. Hence, sketch the graph of f , for x>0 .
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66#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The displacement, in centimeters, oj )o1rc;wa 8fof a particle from an origin, O , at time t seconds, is givra;) c8j ofw1oen by $s(t)=t \sin 2 t-7 \sin t \cos t, 0 \leq t \leq 3$ .
1. Find the maximum distance of the particle from O .
2. Find the acceleration of the particle at the instant it changes direction for the the second time.
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67#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=\frac{1}{3} x^{3}+2 x^{2}-5 x+10$ .
1. Find $f^{\prime}(x)$ .

The graph of f has horizontal tangents at the points where x=a and x=b, a$\lt$b .
2. Find the value of a and the value of b .
3. a. Sketch the graph of $y=f^{\prime}(x)$ .
b. Hence explain why the graph of f has a local maximum point at x=a .
4. a. Find $f^{\prime \prime}(b)$ .
b. Hence, use your answer to part (d) (i) to show that the graph of f has a local minimum point at x=b .

The tangent to the graph of f at x=a and the normal to the graph of f at x=b intersect at the point (p, q) .
5. Find the value of p and the value of q .
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68#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=(x+1) e^{-2 x}, x \in \mathbb{R}$
1. Find $f^{\prime}(x)$ .
2. Prove by induction that $\frac{\mathrm{d}^{n} f}{\mathrm{~d} x^{n}}=\left[n(-2)^{n-1}+(-2)^{n}(x+1)\right] e^{-2 x}$ for all $ n \in \mathbb{Z}^{+}$ .
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69#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the ellipse defined by the eqqnua(*lzf2 w ,uation $x^{2}+3 y^{2}=12$ .
1. Find the equation of the normal to the ellipse at the point $\mathrm{P}(3,1)$ .y =  (代数式) 
2. Find the volume of the solid formed when the region bounded by the ellipse, the x -axis for $x \geq 0$ and the y -axis for $y \geq 0$ is rotated through $2 \pi$ about the y -axis.   

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70#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Air is being pumped into a spherical balloon so that its volume i.jq3, .nj bv9yiu0ygts increasing at a constant rate ojj y,9vn03bqu..g y itf $15 \mathrm{~cm}^{3} \mathrm{~min}^{-1}$ . Find the rate at which the surface area of the balloon is increasing when its radius hits 10 cm .
The surface area S and the volume V of a sphere of radius r are given by $S=4 \pi r^{2}$ and $V=\frac{4}{3} \pi r^{3}$ .
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71#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider a function f . Thet)fp92a0 hif) oo 60m*vsecuo line $L_{1}$ with equation y=2 x-1 is a tangent to the graph of f when x=3 .
1. a. Write down $f^{\prime}(3)$ .
b. Find f(3) .

Let $g(x)=f\left(x^{2}-1\right)$ and P be the point on the graph of g where x=2 .
2. Show that the graph of g has a gradient of 8 at P .

Let $L_{2}$ be the tangent to the graph of g at P . The line $ L_{1}$ intersects $ L_{2}$ at the point Q .
3. Find the y -coordinate of Q .
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72#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $y=\left(x^{2}+x\right)^{\frac{s}{2}}$ , for $x \geq 0$ .
1. Find $ \frac{\mathrm{d} y}{\mathrm{~d} x}$ .
2. Hence find $\int(2 x+1) \sqrt{x^{2}+x} \mathrm{~d} x$.

Consider the functions $ f(x)=\frac{1}{4} \sqrt{x^{2}+x}$ and $g(x)=5-\frac{x}{2} \sqrt{x^{2}+x}$ , for $x \geq 0$ . The graphs of f and g are shown in the following diagram.

The shaded region S is enclosed by the graph of f , the graph of g , the y -axis and the line x=2 .
3. Write down an expression for the area of S .
4. Hence find the exact area of S .
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73#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the functionymw*9rb+di5j* jqnu;e;d j9m f defined by $f(x)=2 \ln (24-1.5 x)$ for x $\lt $16 .
The line $L_{1}$: y=x intersects the graph of f at point P .
The line $L_{2}$ is perpendicular to $L_{1}$ and tangent to the graph of f at point Q .

1. Find the x -coordinate of point P , to three significant figures. ≈   
2. a. Find the exact coordinates of point Q . (a,b) a =    b =   
b. Show that the equation of $ L_{2}$ is $y=-x+2 \ln 3+14$ .  (代数式) 

The shaded region A , as shown in the previous diagram, is enclosed by the graph of f , the line $L_{1}$ and the line $L_{2}$
3. a. Find the exact x -coordinate of the point where $L_{2}$ intersects $L_{1}$ .   
b. Hence, find the area of A , to two decimal places.≈   

The line $ L_{2}$ is also tangent to the graph of the inverse function $f^{-1}$ .

$\text { 4. Find the shaded area enclosed by the graphs of } f, f^{-1} \text { and the line } L_{2} \text {. }$   

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74#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=2 e^{\frac{x}{5}}$ and g(x)=m x , where $m \geq 0$ , and $-6 \leq x \leq 6$ . Let R be the region enclosed by the y -axis, the graph of f , and the graph of g .
1. Let m=2 .
1. Sketch the graphs of f and g on the same axes.
2. Find the area of R .
2. Consider all values of m such that the graphs of f and g intersect. Find the value of m that gives the greatest value for the area of R .
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75#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A biased coin is tossed 10 (knz;.a mce y2times. Let X be the number of tails obtained.
The probability of obtaining a tail in any one throw is p>0 .
1. Find, in terms of p , an expression for $\mathrm{P}(X=8)$ .  (代数式) 
2. a. Determine the value of p for which $\mathrm{P}(X=8)$ is a maximum.   
b. For this value of p , determine the expected number of tails.   

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76#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the curve defined by the equatio*oiyh y lg:;l1n $x^{5}+y^{5}=5 x^{2} y$ .
1. Show that $\frac{\mathrm{d} y}{\mathrm{~d} x}=\frac{2 x y-x^{4}}{y^{4}-x^{2}}$ .  (代数式) 

The normal to this curve is parallel to the y -axis at the point where x=h, h>0 .
2. Find the value of h , giving your answer correct to two decimal places. ≈   

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77#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A ladder of length 13 m rests on horizontal ground and leans against a 1jfz66+fso q)6 l9oliw r ur-evertical wall. The bottom of the laddw)ff6qrjlo+16lsi u6o- e 9zrer is pulled away from the wall at a constant speed of $1.2 \mathrm{~ms}^{-1}$ . Calculate the speed of descent of the top of the ladder when the bottom is 5 m away from the wall.
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78#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Farmer Thomas wants to build a sheep farming field in the shape of0pes+wquvrci zt7 yen3 /h 9de)9e5:x a rectangle with semicircles of radius r on two sides, ay07zdete qus:p/+h35 ci9)ev xe wr9ns shown on the diagram. He has decided to use in total 350 metres of wooden fencing.


1. 1. Find an expression for the area of the farming field in terms of r .
2. Find the width of the farming field when the area is a maximum.
2. Show that in this case the length of the rectangle is equal to zero and the farming field is the circle of radius 175 $\pi^{-1}$ metres.
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79#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A curve has equation 8lb*)1w okm oaa 4ucl0$2 y^{2} e^{x+1}-5 x^{2}=3$ .
1. Find an expression for $\frac{\mathrm{d} y}{\mathrm{~d} x}$ in terms of x and y .  (代数式) 
2. Find the equations of the tangents to this curve when x=-1 . y = $\pm$    m = $\pm$   

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80#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { A bird is } 4 \mathrm{~km} \text { East and } 6 \mathrm{~km} \text { North of its nest. It is flying East at a rate of } 14 \mathrm{~km} \mathrm{~h}^{-1} \text { and North at a rate of } 18 \mathrm{~km} \mathrm{~h}^{-1} \text {. Calculate the rate that its distance from the nest is changing. }$≈   

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81#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the function 7zzua /9e,(hymy14bmnhhkx 0 s f, g , defined for $x \in \mathbb{R}$ , given by $f(x)=e^{2 x} \sin x$ and $g(x)=e^{2 x} \cos x$ .
1. Find
a. $f^{\prime}(x)$ ;  (代数式) 
b. $g^{\prime}(x)$ .  (代数式) 
2. Hence, or otherwise, find $\int_{0}^{\pi} e^{2 x} \cos x \mathrm{~d}$ x .  (数值) 

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82#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the curves 7opbqb-(t ulk23e4(gppe7 1jkj0c m c $C_{1}$ and $C_{2}$ defined as follows

$\begin{array}{l}
C_{1}: \quad 3 y^{2}+2 x^{2}=5, y>0 \\
C_{2}: \quad y^{2}-5 x^{3}=0, y>0
\end{array}$

1. Using implicit differentiation, or otherwise, find $\frac{\mathrm{d} y}{\mathrm{~d} x}$ for each curve in terms of x and y .

Let $\mathrm{P}(a, b)$ be the unique point where the curves $C_{1}$ and $C_{2}$ intersect.
2. Show that the tangent to $C_{1}$ at P is perpendicular to the tangent to $C_{2}$ at P .
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83#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { Consider the function } f(x)=\sqrt{\frac{16-4 x^{2}}{7}} \text {, for }-2 \leq x \leq 2 \text {. In the following diagram, the shaded region is enclosed by the graph of } f \text { and the } x \text {-axis. }$



A rainwater collection tank can be modelled by revolving this region by $360^{\circ}$ about the x -axis.
1. Find the volume of the tank.   

Rainwater in the tank is used for drinking, cooking, bathing and other needs during the week.
The volume of rainwater in the tank is given by the function g(t) , for 0 $\leq $t \$leq 7$ , where t is measured in days and g(t) is measured in $\mathrm{m}^{3}$ . The rate of change of the volume of rainwater in the tank is given by $g^{\prime}(t)=1.5-4 \cos \left(0.12 t^{2}\right)$ .
2. The volume of rainwater in the tank is increasing only when aa. Find the value of a and the value of b . a =    b =   
b. During the interval $a\lt t \ltb$ , the volume of rainwater in the tank increases by $d \mathrm{~m}^{3}$ . Find the value of d .   

When t=0 , the volume of rainwater in the tank is 8.2 $\mathrm{~m}^{3}$ . It is known that the tank is never completely full of rainwater during the 7 day period.
3. Find the minimum volume of empty space in the tank during the 7 day period.   

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84#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let the Maclaurin se-:a9tmh67ip;- go7epgkhd/y uw em 8s ries for $\cot x$ be

$\cot x=\frac{a_{1}}{x}+a_{2} x+a_{3} x^{3}+\cdots$

where $a_{1}, a_{2}$ and $ a_{3}$ are non zero constants.
1. Find the series for $\csc ^{2}$ x , in terms of $a_{1}, a_{2}$ and $a_{3}$ , up to and including the $x^{2}$ term
a. by differentiating the above series for $\cot x$ ;
b. by using the relationship $\csc ^{2} x=1+\cot ^{2} x$ .
2. Hence, by comparing your two series, determine the values of $a_{1}, a_{2}$ and $ a_{3}$ .

本题所包含的其它图片:

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85#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The function f is defined xq*r)cfa09 .8kvj rlgby $f(x)=e^{-x} \sin x-x+x^{2}$ .
By finding a suitable number of derivatives of f , determine the first non-zero term in its Maclaurin series.
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86#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A physicist is studying the motion ofd vdrlff)6o0u*he *b8 two separate particles moving in a straight line. She measures the displacement of each particle from oefuvf8 6l)dbr *0d*ha fixed origin over the course of 10 seconds The physicist found that the displacement of particle A, $s_{A} \mathrm{~cm}$ , at time t seconds can be modelled by the function $s_{A}(t)=7 t+9$ , where $ 0 \leq t \leq 10$ .
The physicist found that the displacement of particle B,$s_{B} \mathrm{~cm}$ , at time t seconds can be modelled by the function $s_{B}(t)=\cos (3 t+5)+8 t+4 $.
1. Use the physicist's models to find the initial displacement of
1. Particle A ;
2. Particle B correct to three significant figures.
2. Find the values of t when $s_{A}(t)=s_{B}(t)$ .
3. For t>6 , prove that particle B was always further away from the fixed origin than particle A .
4. For $ 0 \leq t \leq 10$ , find the total amount of time that the velocity of particle A was greater than the velocity of particle B .
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87#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A curve is given by the equas7apog h m)/2)hzgmb9 tion $y=\cos (2 \pi \sin x)$ .
Find the coordinates of all the points on the curve for which $\frac{\mathrm{d} y}{\mathrm{~d} x}=0,0 \leq x \leq \pi$ .
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88#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A curve is given by the equation (k,ie *e/58vfwf 6nk f4pjnf h$y=\cos (2 \pi \cos x)$ .
Find the coordinates of all the points on the curve for which $\frac{\mathrm{d} y}{\mathrm{~d} x}=0,0 \leq x \leq \pi$ .
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89#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The function f is defined by 3.yl.v6sni0kc 3e60 hq ui cpt1s3 nwk$f(x)=e^{2 x}-4 e^{x}+2$ , for $x \in \mathbb{R}, x \leq a$ , where $a \in \mathbb{R}$ . Part of the graph of y=f(x) is shown in the following diagram.



1. Find the largest value of a such that f has an inverse function.
2. For this value of a , find an expression for $ f^{-1}(x)$ , stating its domain.
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90#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The function h is defined byr3p7tn6;ek 6atkn rm0b 3 vfk6 $h(x)=\cos (\pi \cos x),-\pi \leq x \leq \pi$ .
1. Determine whether h is even, odd or neither even nor odd.
2. Show that $h^{\prime \prime}(0)=0$ .
3. Jack states that, because $ h^{\prime \prime}(x)=0$ , the graph of h has an inflexion at the point $\mathrm{P}(0,-1)$ . Explain briefly whether Jack's statement is correct or not.
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91#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Find the x -coordinates of all the points on t)yz0jmkx 5:wpq 1nkqrsix*aj 4,a* 0nhe curve $y=2 x^{4}-\frac{34}{3} x^{3}+\frac{41}{2} x^{2}-10 x$ at which the tangent to the curve is parallel to the tangent at $\mathrm{P}\left(1, \frac{7}{6}\right)$ . x =      

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92#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A curve is defined byjf- h4b7*,kaymp ry4m $x^{2}+10 x y+y^{2}=48$ .
1. Show that $\frac{\mathrm{d} y}{\mathrm{~d} x}=-\frac{2 x+10 y}{10 x+2 y} $.  (代数式) 
2. Find the equation of the normal to the curve at the point $ \mathrm{P}(-2,22)$ .y =  (代数式) 
3 . Find the distance between the two points on the curve where each tangent is parallel to the line y=-x .   

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93#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  $\text { The double folium is a curve defined by the equation }\left(x^{2}+y^{2}\right)^{2}=8 x y^{2} \text {, shown in the diagram below. }$


\text { Determine the exact coordinates of the point } \mathrm{P} \text { on the curve where the tangent line is parallel to the } x \text {-axis. } (a,b) a =    b =   

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94#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  An oval-shaped superspeedv fkc)3d*xn xv,yyp;-way can be described by the curve $x^{2}+12 y^{2}=1+10 x^{2} y^{2}$ , shown in the diagram below. A F1 racing car is moving along the track with $\frac{\mathrm{d} x}{\mathrm{~d} t}=240 \mathrm{kmh}^{-1}$ when x=0.67 $\mathrm{~km}$ .


$\text { Find the value of } \frac{\mathrm{d} y}{\mathrm{~d} t} \text {, giving your answer to the nearest } \mathrm{km}^{-1} \text {. }$≈   

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95#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The function f is defined by ..y a3 hbuamiad;mf+, $f(x)=e^{x} \cos x, x \in \mathbb{R}$ .
1. By finding a suitable number of derivatives of f , determine the Maclaurin series for f(x) as far as the term $x^{4}$ .
2. Hence, or otherwise, determine the exact value of $\lim _{x \rightarrow 0} \frac{e^{x} \cos x-x-1}{x^{3}}$ .
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96#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider

$\lim _{x \rightarrow 0} \frac{2 \arctan \left(e^{x}\right)-c}{3 x}$

where $ c \in \mathbb{R}$ .
1. Show that a finite limit only exists for $c=\frac{\pi}{2}$ .   
2. Using l'Hôpital's rule, show algebraically that the value of the limit is $\frac{1}{3}$ .   

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97#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Let $f(x)=\frac{\ln \left(8 x^{3}\right)}{k x}$ where x$\lt$0,$k \in \mathbb{R}^{+}$ .
1. Show that $f^{\prime}(x)=\frac{3-\ln \left(8 x^{3}\right)}{k x^{2}} $.  (代数式) 

The graph of f has exactly one maximum point A .
2. Find the x -coordinate of A.   

The second derivative of f is given by $ f^{\prime \prime}(x)=\frac{2 \ln \left(8 x^{3}\right)-9}{k x^{3}}$ . The graph of f has exactly one point of inflexion B ,
3. Show that the x -coordinate of B is $\frac{e^{3 / 2}}{2}$ .   

The region R is enclosed by the graph of f , the x -axis, and the vertical lines through the maximum point A and the point of inflexion B .

$\text { 4. Given that the area of } R \text { is } 5 \text {, find the value of } k \text {. }$   

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98#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A particle moves such that ikd* 4 miq45q.yq9duzmts velocity v$ \mathrm{~m} \mathrm{~s}^{-1} $ is related to its displacement s $\mathrm{~m}$ by the equation v(s)=2$ \arctan (\cos s), 0 \leq s \leq \pi$ .
1. Find the particle's acceleration a $\mathrm{~m} \mathrm{~s}^{-2}$ in terms of s .
2. Using an appropriate graph, find the particle's displacement when its acceleration is 0.5$ \mathrm{~m} \mathrm{~s}^{-2}$ .
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99#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  1. Use L'Hôpital's rule to dei.)ll7jarq8c +nuvt ui:);j btermine the value of $\lim _{x \rightarrow 0} \frac{e^{-5 x^{2}}-2 \cos (5 x)+1}{4 x^{2}} $.   
2. Hence find $\lim _{x \rightarrow 0} \frac{\int_{0}^{x}\left(e^{-5 t^{2}}-2 \cos (5 t)+1\right) \mathrm{d} t}{\int_{0}^{x} 4 t^{2} \mathrm{~d} t}$ .   

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100#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
1. By successive diffgfhw11 *+5n / z2 qs+clod(e wj0bvwlgerentiation find the first five non-zero terms in the Maclaurin series for wl hjqn1ed2wws5g+01o/(gfcz bl+ v *$f(x)=(2-2 x) \ln (1-x)+2 x $.
2. Deduce that, for $n \geq 2$ , the coefficient of $x^{n}$ in this series is $\frac{2}{n(n-1)}$ .
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101#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the function 5nt hx is37xk10l5j5 wvygcax51u v-q$f(x)=\sqrt{\frac{10}{x^{2}}-1}$ , where $1 \leq x \leq \sqrt{10}$ .
1. Sketch the curve y=f(x) , indicating the coordinates of the endpoints.
2. 1. Show that $ f^{-1}(x)=\sqrt{\frac{10}{x^{2}+1}}$ .
2. State the domain and range of f^{-1} .

The curve y=f(x) is rotated through $2 \pi$ about the y -axis to form a solid of revolution that is used to model a vase.
3. 1. Show that the volume V $\mathrm{~cm}^{3}$ , of liquid in the vase when it is filled to a height of h centimetres is given by $V=10 \pi \arctan (h)$ .
2. Hence, determine the volume of the vase.

At t=0 , the vase is filled to its maximum volume with water. Water is then removed from the vase at a constant rate of 4 $\mathrm{~cm}^{3} \mathrm{~s}^{-1}$ .
4. Find the time it takes to completely empty the vase.
5. Find the rate of change of the height of the water when half of the water has been emptied from the vase.
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102#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Consider the functions f and g defined .k rnq)62 sovvon the domain $0\lt x \lt 2$ $\pi$ by

$f(x)=4 \cos 2 x \quad \text { and } \quad g(x)=2-8 \cos x$ .


The following diagram shows the graphs of y=f(x) and y=g(x) .


1. Find the x -coordinates of the points of intersection of the two graphs.      
2. Find the exact area of the shaded region, giving your answer in the form $a \pi+b \sqrt{3}$ , where a, b $\in \mathbb{Q}$ . At the points P and Q on the diagram, the gradients of the two graphs are equal.   
3. Determine the y -coordinate of P on the graph of g .   

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103#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A water truck tank which is 3 metres long has a uniform cross-section in t:ym/s)+8kr phy40y9me x5 vqv.abqmuhe shape of a major segment. The tank is divided into two equal parts and is partially filled with water as svy0 /)maph4sq+yxy e5k ubm8v:.mr q9hown in the following diagram of the cross-section. The centre of the circle is O , the angle AOB is $\alpha$ radians, and the angle AOF is $\beta$ radians.

1. Given that $\alpha=\frac{\pi}{4}$ , calculate the amount of water, in litres, in the right part of the water tank. Give your answer correct to the nearest integer.
2. Find an expression for the volume of water V , in $ \mathrm{m}^{3}$ , in the left part of the water tank in terms of $\beta$ .
he left part of the tank is now being filled with water at a constant rate of 0.001 $\mathrm{~m}^{3}$ per second.
3. Calculate $\frac{\mathrm{d} \beta}{\mathrm{d} t}$ when $\beta=\frac{3 \pi}{5} $. Round your answer to 3 significant figures.
4. Calculate the amount of time it will take for the left part of the tank to be fully filled with water. Give your answer in minutes and correct to the nearest integer.
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104#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the functions,/g.jo mu,w::eqtcy0i yys s: $f(x)=\sin x,-\frac{\pi}{2} \leq x \leq \frac{\pi}{2}$ and $g(x)=\frac{2 x \sqrt{1-x^{2}}}{1-2 x^{2}}$, $x \in \mathbb{R}$, x$ \neq \pm \frac{1}{\sqrt{2}}$ .
1. Find an expression for $(g \circ f)(x)$ , stating its domain.
2. Hence show that $(g \circ f)(x)=\tan 2 x$ .
3. Letting $y=(g \circ f)(x)$ , find an exact value for $\frac{\mathrm{d} y}{\mathrm{~d} x}$ at $ x=\frac{\pi}{3}$ .
4. Show that the area bounded by the graph of $y=(g \circ f)(x)$ , the x -axis and the lines x=0 and $x=\frac{\pi}{3}$ is $\frac{1}{2} \ln 2$ .
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105#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A curve is defined by +mqim e7aop1)4 gbe k* 9ja/mu $x^{2}+y^{2}-3 x y+45=0 $.
1. Show that $ \frac{\mathrm{d} y}{\mathrm{~d} x}=\frac{3 y-2 x}{2 y-3 x}$ .
2. Find the equation of the normal to the curve at the point (21,9) .
3. Find the distance between the two points on the curve where each tangent is perpendicular to the y -axis.
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106#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The curve C is defined by th7piqun d48n 8fe equation $y^{2}+4 x y+e^{x}=10$ . The point $ \mathrm{P}(0, b)$ lies on C where b$\lt$0 .
1. Find the value of b .
2. Show that $\frac{\mathrm{d} y}{\mathrm{~d} x}=-\frac{4 y+e^{x}}{2 y+4 x}$ .
3. Find the equation of the normal to C at the point P .
4. Find the coordinates of the second point at which the normal found in part (c) intersects C .
5. Given that $ u=y^{4}$, y$\lt$0 , find $\frac{\mathrm{d} u}{\mathrm{~d} x} $ at x=0 .
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107#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $ f(x)=e^{x} \cos x$ .
1. Show that $f^{\prime \prime}(x)=2\left(f^{\prime}(x)-f(x)\right)$ .
2. By further differentiation of the result in part (a), find the Maclaurin expansion of f(x) , as far as the term in $x^{5}$ .
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108#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the functio - l znhy,pyn;xkpegkg;(nlx2l;gf+2f,+/ xhn $ g(x)=a x^{3}+b x^{2}+c x+d$ , where x$ \in \mathbb{R} $ and a, b, c, d $\in \mathbb{R}$ .
1. 1. Write down an expression for $ g^{\prime}(x)$ .
2. Hence, given that $g^{-1}$ does not exist, show that $ b^{2}-3$ a c$\lt $0 .

Consider the function $f(x)=\frac{x^{3}}{2}+3 x^{2}+6 x+\frac{9}{2}$
2. 1. Show that $f^{-1}$ exists.
2. f(x) can be written in the form p(x+2)^{3}+q , where p, q$ \in \mathbb{R}$ . Find the value of p and the value of q .
3. Hence, find $ f^{-1}(x)$ .

The graph of f(x) may be obtained by transforming the graph of $y=x^{3}$ using a sequence of three transformations.
3. State each of the transformations in the order in which they are applied.
4. Sketch the graphs of y=f(x) and $y=f^{-1}(x)$ on the same set of axes, indicating the points where each graph crosses the coordinate axes.
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109#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=(x-1) e^{\frac{t}{3}}$, for $x \in \mathbb{R}$
1. Find $f^{\prime}(x) $.
2. Prove by induction that $ \frac{\mathrm{d}^{n} f}{\mathrm{~d} x^{n}}=\left(\frac{3 n+x-1}{3^{n}}\right) e^{\frac{x}{3}} $ for all $n \in \mathbb{Z}^{+}$ .
3. Find the coordinates of any local maximum and minimum points on the graph of y=f(x) . Justify whether such point is a maximum or a minimum.
4. Find the coordinates of any points of inflexion on the graph of y=f(x) . Justify whether such point is a point of inflexion.
5. Hence sketch the graph of y=f(x) , indicating clearly the points found in parts (c) and (d) and any intercepts with the axes.
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110#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=x^{4}-0.4 x^{3}-2.85 x^{2}+0.9 x+1.35$ , for $x \in \mathbb{R}$ .
1. Find the solutions for $f(x)\lt 0$ .
2. For the graph of y=f(x) ,
1. find the coordinates of local minimum and maximum points.
2. find the x -coordinates of the points of inflexion.

The domain of f is now restricted to [a, b] where a, b $\in \mathbb{R}^{+}$.
3. 1. Write down the smallest value of $a\lt 0$ and the largest value of b>0 for which f has an inverse. Give your answers correct to three significant figures.
2. For these values of a and b , sketch the graphs of y=f(x) and $y=f^{-1}(x)$ on the same set of axes, showing clearly the coordinates of the end points of each curve.
3. Solve $f^{-1}(x)=0.5$ .

Let $g(x)=\frac{2}{3} \sin (2 x-1)+\frac{1}{2}, \frac{1}{2}-\frac{\pi}{4} \leq x \leq \frac{1}{2}+\frac{\pi}{4}$ .
4. 1. Find an expression for $g^{-1}$ and state its domain.
2. Solve $ \left(f^{-1} \circ g\right)(x) \lt 0.5$ .
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111#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the functio:q72 rk j1fvl,y vley5n $f(x)=\frac{\sqrt{x}}{2 \cos x}, \frac{\pi}{2}1. 1. Show that the x -coordinate of the maximum point on the curve y=f(x) satisfies the equation $1+2 x \tan x=0 $.
2. Determine the values of x for which f(x) is an increasing function.
2. Sketch the graph of y=f(x) , showing clearly the maximum point and any asymptotic behaviour.
3. Find the coordinates of the point on the curve y=f(x) where the normal to the curve is perpendicular to the line y=x . Give your answers correct to two decimal places.

Consider the region bounded by the curve y=f(x) , the x -axis and the lines

$x=\frac{3 \pi}{4}, x=\frac{4 \pi}{3} \text {. }$

4. The region is now rotated through $2 \pi$ radians about the x -axis. Find the volume of revolution, giving your answer correct to two decimal places.
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112#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the function defined b *bzldhqeq; 14y $ f(x)=(1-x) \sqrt{2 x-x^{2}} $ where $0 \leq x \leq 2 $.
1. Show that f(1-x)=-f(1+x) , for $-1 \leq x \leq 1 $.
2. Find $f^{\prime}(x)$ .
3. Hence find the x -coordinates of any local minimum or maximum points.
4. Find the range of f .
5. Sketch the graph of y=f(x) , indicating clearly the coordinates of the x -intercepts and any local maximum or minimum points.
6 . Find the area of the region enclosed by the graph of y=f(x) on the x -axis, for $ 0 \leq x \leq 1$ .
7. Show that $\int_{0}^{2}|f(x)| d x>\left|\int_{0}^{2} f(x) d x\right| $.
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113#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
$\text { The following graph shows the relation } x=5 \sin \left(\frac{\pi y}{30}\right)+10,0 \leq y \leq 60 \text {. }$


The curve is rotated $360^{\circ}$ about the y -axis to form a volume of revolution.
1. Calculate the value of the volume generated.

A vase with this shape is made with a solid base of diameter 20 cm . The vase is filled with water from a faucet at a constant rate of 150 $\mathrm{~cm}^{3} \mathrm{sec}^{-1}$ . At time $t \mathrm{sec}^{2}$ , the water depth is h $\mathrm{cm}, 0 \leq h \leq 60$ and the volume of water in the vase is V $\mathrm{~cm}^{3}$ .
2. 1. Given that $\frac{\mathrm{d} V}{\mathrm{~d} h}=\pi\left[5 \sin \left(\frac{\pi h}{30}\right)+10\right]^{2}$ , find an expression for $\frac{\mathrm{d} h}{\mathrm{~d} t}$.
2. Find the value of $\frac{\mathrm{d} h}{\mathrm{~d} t} $ when $h=45 \mathrm{~cm}$ .
3. 1. Find $\frac{\mathrm{d}^{2} h}{\mathrm{~d} t^{2}}$
2. Find the values of h for which $\frac{\mathrm{d}^{2} h}{\mathrm{~d} t^{2}}=0 $.
3. By making specific reference to the shape of the vase, interpret $\frac{\mathrm{d} h}{\mathrm{~d} t}$ at the values of h found in part (c) (ii).
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114#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the functio+xipxc nm1p)(4ea, cjw ( -ioln $f(x)=\frac{a e^{-x}}{b-a e^{-x}}$ where $\lt 0, b\lt0$ .
1. Show that $ f^{\prime}(x)=\frac{-a b e^{-x}}{\left(b-a e^{-x}\right)^{2}} $.
2. Explain why $f^{\prime \prime}(x)$ is never zero.
3. Find the equation of:
1. the vertical asymptote of f ;
2. the horizontal asymptote of f .
4. Draw a sign diagram for $f^{\prime}(x)$ .
5. If a=3 and b=1 ,
1. sketch the graph of f labelling all asymptotes;
2. find the area of the region enclosed by f , the x and y axes and the line $x=\ln 2 $.
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115#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=\frac{x^{3}+x-2}{2 x}, x \in \mathbb{R}, x \neq 0$ .
1. The graph of y=f(x) has a local minimum at A . Find the coordinates of A .
2. 1. Show that there is exactly one point of inflexion, B , on the graph of y=f(x) .
2. The coordinates of B can be expressed in the form $\mathrm{B}\left(2^{p}, 2^{q}\right) $, where p, q $\in \mathbb{Q} $. Find the value of p and the value of q .
3. Sketch the graph of y=f(x) showing clearly the position of the points A and B .
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116#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The function f is defij7 uja,kl0 kz4vxrca:*4d: epned by $f(x)=(\arccos x)^{2},-1 \leq x \leq 1$ .
1. Show that $f^{\prime}(0)=-\pi$

The function f satisfies the equation

$\left(1-x^{2}\right) f^{\prime \prime}(x)-x f^{\prime}(x)=2$ .

2. By differentiating the above equation twice, show that

$\left(1-x^{2}\right) f^{(4)}-5 x f^{\prime \prime \prime}(x)=4 f^{\prime \prime}(x)$

where f^{(n)}(x) denotes the n th derivative of f(x) .
3. Hence show the Maclaurin series for f(x) up to and including the term in $x^{4}$ is $\frac{\pi^{2}}{4}-\pi x+x^{2}-\frac{\pi}{6} x^{3}+\frac{x^{4}}{3} $.
4. Use this series approximation for f(x) with $ x=\frac{1}{2}$ to find an approximate value for $25 \pi-\frac{20}{3} \pi^{2}$ .
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117#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
1. Use L'Hôpital's rule to fi qvl7/; wb 4-zbmn0nmynd $\lim _{x \rightarrow \infty} x^{3} e^{-x}$ .
2. Show that the proper integral $\int_{0}^{\infty} x^{3} e^{-x} \mathrm{~d} x$ converges, and state its value.
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118#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the functiov(-ubz;e(b3hgrl2n2 gxv(c zn $f(x)=-2 \sin ^{2} x+3 \sin 2 x+\tan x-3,0 \leq x<\frac{\pi}{2}$ .
1. 1. Determine an expression for $f^{\prime}(x)$ in terms of x .
2. Sketch the graph of $y=f^{\prime}(x) for 0 \leq x<\frac{\pi}{2} $.
3. Find the x -coordinate(s) of the point(s) of inflexion of the graph of y=f(x) , labelling these clearly on the graph of $y=f^{\prime}(x)$ .
2. Let $u=\tan x$.
1. Express $\sin x$ in terms of u .
2. Express $\sin 2 x $ in terms of u .
3. Show that f(x)=0 can be expressed as $u^{3}-5 u^{2}+7 u-3=0$.
3. Solve the equation f(x)=0 , giving your answers in the form $\arctan p$, where $ p \in \mathbb{Z}$ .
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119#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
This question ask you to investigate the relationship between the+ ;gf :*j6 qmii.de.*zgflhxr number of sides and the area of an enclosure with a given perix.lr.i i *+zj:fm e* hf;gqg6dmeter.
A farmer wants to create an enclosure for his chickens, so he has purchased 28 meters of chicken coop wire mesh.
1. Initially the farmer considers making a rectangular enclosure.
1. Complete the following table to show all the possible rectangular enclosures with sides of at least 4 m he can make with the 28 m of mesh. The sides of the enclosure are always a whole number of metres.

2. What is the name of the shape that gives the maximum area?

The farmer wonders what the area will be if instead of a rectangular enclosure he uses an equilateral triangular enclosure.
2. Show that the area of the triangular enclosure will be $\frac{196 \sqrt{3}}{9} $.

Next, the farmer considers what the area will be if the enclosure has the form of a regular pentagon.
The following diagram shows a reqular pentagon.


Let O be the centre of the regular pentagon. The pentagon is divided into five congruent isosceles triangles and angle $A \widehat{O}$ B is equal to $\theta $ radians.
3. 1. Express $\theta$ in terms of $\pi$ .
2. Show that the length of OA is $\frac{14}{5}$$ \operatorname{cosec}\left(\frac{\pi}{5}\right) \mathrm{m}$ .
3. Show that the area of the regular pentagon is $\frac{196}{5} \cot \left(\frac{\pi}{5}\right) \mathrm{m}^{2} $.

Now, the farmer considers the case of a regular hexagon.
4. Using the method in part (c), show that the area of the regular hexagon is

$\frac{196}{6} \cot \left(\frac{\pi}{6}\right) \mathrm{m}^{2}$

The farmer notices that the hexagonal enclosure has a larger area than the pentagonal enclosure. He considers now the general case of an n -sided regular polygon. Let A_{n} be the area of the n -sided regular polygon with perimeter of 28 m .
5. Show that $A_{n}=\frac{196}{n} \cot \left(\frac{\pi}{n}\right)$ .
6. Hence, find the area of an enclosure that is a regular 14-sided polygon with a perimeter of 28 m . Give your answer correct to one decimal place.
7. 1. Evaluate $\lim _{n \rightarrow \infty} A_{n}$
2. Interpret the meaning of the result of part (g) (i).
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120#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $f(x)=(x+1) e^{-2 x}, x \in \mathbb{R}$ .
1. Find $\frac{\mathrm{d} f}{\mathrm{~d} x}$ .
2. Prove by induction that $\frac{\mathrm{d}^{n} f}{\mathrm{~d} x^{n}}=\left[n(-2)^{n-1}+(-2)^{n}(x+1)\right] e^{-2 x}$ for all $ n \in \mathbb{Z}^{+}$ .
3. Find the coordinates of any local minimum and maximum points on the graph of y=f(x) . Justify whether any such point is a minimum or a maximum.
4. Find the coordinates of any points of inflexion on the graph of y=f(x) . Justify whether any such point is a point of inflexion.
5. Hence sketch the graph of y=f(x) , indicating clearly the points found in parts (c) and (d) and any intercepts with the axes.
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121#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $y=e^{-\frac{x}{2}} \cos \left(\frac{x}{2}\right)$
1. Find an expression for $ \frac{\mathrm{d} y}{\mathrm{~d} x}$ .
2. Show that $\frac{\mathrm{d}^{2} y}{\mathrm{~d} x^{2}}=\frac{1}{2} e^{-\frac{x}{2}} \sin \left(\frac{x}{2}\right)$

Consider the function f defined by $f(x)=e^{-\frac{x}{2}} \cos \left(\frac{x}{2}\right),-\pi \leq x \leq \pi$ .
3. Show that the function f has a local maximum value when $ x=-\frac{\pi}{2} $.
4. Find the x -coordinate of the point of inflexion of the graph of y=f(x) .
5. Sketch the graph of y=f(x) , clearly indicating the positions of the local maximum point, the point of inflexion and the intercepts with the axes.
6. Find the area of the region enclosed by the graph of y=f(x) and the x -axis.

The curvature at any point (x, y) on a graph is defined as $\kappa=\frac{\left|\frac{\mathrm{d}^{2} y}{\mathrm{~d} x^{2}}\right|}{\left[1+\left[\frac{\mathrm{d} y}{\mathrm{~d} x}\right]^{2}\right]^{\frac{3}{2}}}$ .
7. Find the value of the curvature of the graph of y=f(x) at the local maximum point.
8. Find the value of $\kappa $ for x=0 and comment on its meaning with respect to the shape of the graph.
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122#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A curve C is given by the implicit equatil8+;gq xv jr.kr be-t:on $x-y+\sin (x y)=0$.
1. Show that $ \frac{\mathrm{d} y}{\mathrm{~d} x}=\frac{1+y \cos (x y)}{1-x \cos (x y)}$.
2. The curve $x y=\pi$ intersects C at P and Q .
a. Find the coordinates of P and Q .
b. Given that the gradients of the tangents to C at P and Q are $m_{1}$ and $m_{2}$ respectively, show that $ m_{1} \cdot m_{2}=1$ .
3. Find the coordinates of the three points on C , nearest to the origin, where the tangent is parallel to the line y=x .
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123#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
The function f is defined by p ut.melp47wngs8exyz)ps54m5r b(++ sbgk ) $f(x)=e^{\arctan x} $.
1. Find the first two derivatives of f(x) and hence find the Maclaurin series for f(x) up to and including the $x^{2}$ term.
2. Show that the coefficient of $x^{3}$ in the Maclaurin series for f(x) is $-\frac{1}{6} $.
3. Using the Maclaurin series for $\sin x$ and $\ln (2 x+1)$ , find the Maclaurin series for $\sin (\ln (2 x+1))$ up to and including the $ x^{3} $ term.
4. Hence, or otherwise, find $\lim _{x \rightarrow 0} \frac{f(x)-1}{\sin (\ln (2 x+1))} $.
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124#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the function gq4s a0+tr7v2 k3 ver4 bt;nyq$f(x)=\cos (p \arccos x),$-1 \lt x \lt 1$ and p \in \mathbb{R}$ .
1. Show that $f^{\prime}(0)=p \sin \left(\frac{p \pi}{2}\right) $.

The function f and its derivative satisfy

$\left(1-x^{2}\right) f^{(n+2)}(x)=(2 n+1) x f^{(n+1)}(x)+\left(n^{2}-p^{2}\right) f^{(n)}(x), \quad n \in \mathbb{N}$

where $f^{(n)}(x)$ denotes the n th derivative of f(x) and $f^{(0)}(x)$ is f(x) .
2. Show that $ f^{(n+2)}(0)=\left(n^{2}-p^{2}\right) f^{(n)}(0)$ .
3. For $p \in \mathbb{R} \backslash\{ \pm 1, \pm 2, \pm 3\}$ , show that the Maclaurin series for f(x) , up to and including the x^{4} term, is

$\begin{array}{l}
\cos \left(\frac{p \pi}{2}\right)+p \sin \left(\frac{p \pi}{2}\right) x-\frac{p^{2} \cos \left(\frac{p \pi}{2}\right)}{2} x^{2} \\
+ \frac{\left(1-p^{2}\right) p \sin \left(\frac{p \pi}{2}\right)}{6} x^{3}-\frac{\left(4-p^{2}\right) p^{2} \cos \left(\frac{p \pi}{2}\right)}{24} x^{4}
\end{array}$

4. Hence or otherwise, find $\lim _{x \rightarrow 0} \frac{\cos (p \arccos (x))}{x}$ where p is an odd integer.
5. If p is an integer, prove the Maclaurin series for f(x) is a polynomial of
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125#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Consider the function defined by d fi9i6lb+:/ic) fbis$ f(x)=(2 x-6) \ln (x+3)+x $ for $x \in \mathbb{R}$, $x\lt p$ .
1. Find the value of p .
2. Find an expression for $f^{\prime}(x)$ .

The graph of y=f(x) has no points of inflexion.
3. Determine if the graph of y=f(x) is concave down or concave up over its domain.

The function g is defined by g(x)=3$\ln \left(\frac{1}{x+3}\right)+x$ , for $x \in \mathbb{R}$, $x\lt -3$ .
4. Find an expression for $g^{\prime}(x)$ .
5. Find the horizontal and vertical asymptotes of $g^{\prime}(x)$ .
6 . Find the exact value of the minimum of y=g(x) .
7. Solve $f(x)\lt g(x)$ for $x \in \mathbb{R}, x\lt -3$ .
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126#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
A function f(x) is defined by y7v5qrgd-s 4taa6 1ua $ f(x)=\arccos \left(\frac{x^{2}-1}{x^{2}+1}\right), x \in \mathbb{R}$ .
1. Show that f is an even function.
2. Find the equation of the horizontal asymptote to the graph of y=f(x) .
3. 1. Show that $f^{\prime}(x)=-\frac{2 x}{\sqrt{x^{2}}\left(x^{2}+1\right)} $ for $x \in \mathbb{R},$ $x \neq 0 $.
2. Using the expression for $f^{\prime}(x)$ and the result $\sqrt{x^{2}}=|x|$ , show that f is increasing for $x\lt 0$ .

A function g is defined by $ g(x)=\arccos \left(\frac{x^{2}-1}{x^{2}+1}\right), x \in \mathbb{R}$, $x \geq 0 $.
4. Find the range of g .
5. Find an expression for $g^{-1}(x)$ .
6. State the domain of $g^{-1}(x)$ .
7. Sketch the graph of $y=g^{-1}(x)$ . Clearly indicating any asymptotes with their equations and stating the values of any axes intercepts.
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127#
 
问答题 ( 1.0 分) 切至整卷模式 搜藏此题  
Let $ f(x)=\frac{1}{\sqrt{1-x}}, x\lt 1 $.
1. Show that $f^{\prime \prime}(x)=\frac{3}{4}(1-x)^{-5 / 2}$ .
2. Use mathematical induction to prove that

$f^{(n)}(x)=\left(\frac{1}{4}\right)^{n} \frac{(2 n)!}{n!}(1-x)^{-1 / 2-n} \quad n \in \mathbb{Z}, n \geq 2 $.

Let $g(x)=\cos (m x), m \in \mathbb{Q}$ .
Consider the function h defined by $ h(x)=f(x) \times g(x)$ for $x\lt 1$ .
The $x^{2}$ term in the Maclaurin series for h(x) has a coefficient of $-\frac{3}{4}$ .
3. Find the possible values of m .
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