花蓮縣 112 學年度國民中小學教師聯合甄選
選擇題【共 25 題,每題 4 分,共 100 分】請以 2B 鉛筆於答案卡上作答,單選題;答錯不倒扣。
1. 某校圖書館有 5000 元購書經費,今有三種圖書每本單價分別為 100,150,200 元。該校欲一共購買三十本,每種書都至少一本,且恰好把 5000 元用完。試問有幾個不同的購書方案?
(A) 9 (B) 10 (C) 11 (D) 12
解答:
假設{100元的書買x本150元的書買y本200元的書買z本⇒{100x+150y+200z=5000x+y+z=30⇒{2x+3y+4z=100x+y+z=30⋯(1)⇒y+2z=40⋯(2),由(1)及(2)⇒(x,y,z)=(1,18,11),(2,16,12),…,(9,2,19),共九種買法,故選(A)解答:
2x2+xy+y2=2⇒4x+y+xy′+2yy′=0⇒y′=−4x−yx+2y⇒y′(1,−1)=−3−1=3⇒切線斜率=3⇒切線方程式:y=3(x−1)−1=3x−4⇒y=3x−4,故選(D)解答:
f(x)=xx=exlnx⇒f′(x)=(lnx+1)exlnx=(lnx+1)xx⇒f′(2)=(ln2+1)22=4(ln2+1),故選(D)解答:
(A)◯:∫∞e1x(lnx)2dx=[−1lnx]|∞e=0−(−1)=1,故選(A)解答:
an+1=an+√an+14=(√an+12)2⇒a2=(32)2=94⇒a3=22=4⇒a4=(52)2=254⇒a5=32⇒an={k2n=2k−1(2k+1)2/4n=2k⇒a99=a2⋅50−1=502=2500,故選(C)解答:
an=(−1)n−1n⋅3nxn⇒limn→∞|an+1an|=limn→∞|(−1)n⋅xn+1(n+1)⋅3n+1⋅n⋅3n(−1)n−1⋅xn|=limn→∞|n(n+1)⋅3⋅x|=13|x|<1⇒|x|<3x=3⇒an=(−1)n−1/n⇒∞∑n=1an=1−12+13−⋯⇒級數收斂x=−3⇒an=−1n⇒∞∑n=1an=−(1+1/2+1/3+⋯)⇒級數發散因此收斂區間為(−3,3],故選(B)解答:
∬解答:
f可積 \Rightarrow F可微,故選\bbox[red, 2pt]{(B)}解答:
(A)解釋變數(自變數)為類別變數,不是連續型\\(B) 變異數分析用來檢驗平均數是否相等,假設他們的平均數是相等的\\ (D) F分布,不是卡方\\,故選\bbox[red, 2pt]{(C)}解答:
(A)相關係數與因果無關\\(B) X是自變項,Y是應變項\\(C) \beta與\rho 同正負\\,故選\bbox[red, 2pt]{(D)}解答:
本題與第六題相關,A發散,B收斂,故選\bbox[red, 2pt]{(C)}解答:
甲:常見的反例f(t)=e^{i2\pi } \\ 乙:反例是微分的反函數不得為0\\,故選\bbox[red, 2pt]{(D)}解答:
y=\cos(e^{-\theta^2}) \Rightarrow y'=-\sin(e^{-\theta^2})\cdot -2\theta e^{-\theta^2} =2\theta e^{-\theta^2} \sin(e^{-\theta^2}),故選\bbox[red, 2pt]{(D)}解答:
\lim_{x\to 0^+} x^2\ln x =\lim_{x\to 0^+} {\ln x\over {1\over x^2}} = \lim_{x\to 0^+} {1/x\over {-2\over x^3}} =\lim_{x\to 0^+} -{x^2\over 2}=0,故選\bbox[red, 2pt]{(B)}解答:
算幾不等式:{x^2\over 8}+{y^2\over 2}\ge 2\sqrt{{x^2\over 8}\cdot {y^2\over 2}} \Rightarrow 1\ge 2\cdot {xy\over 4} \Rightarrow xy\le 2,故選\bbox[red, 2pt]{(C)}解答:
\cases{逆時針旋轉45^\circ矩陣A=\begin{bmatrix} \sqrt 2/2 & -\sqrt 2/2\\ \sqrt 2/2& \sqrt 2/2 \end{bmatrix}\\ 對x軸鏡射矩陣B=\begin{bmatrix}1& 0 \\ 0& -1 \end{bmatrix}} \Rightarrow BA=\begin{bmatrix} \sqrt 2/2 & -\sqrt 2/2\\ -\sqrt 2/2& -\sqrt 2/2 \end{bmatrix},故選\bbox[red, 2pt]{(A)}解答:
(A)\det \left(\begin{bmatrix} 1-\lambda & 2\\ 3 & 4-\lambda\end{bmatrix} \right)=0 \Rightarrow \lambda^2-5\lambda-2=0 \Rightarrow \lambda \not \in \mathbb N \\(B)\det \left(\begin{bmatrix} 1-\lambda & 4\\ 2 & 3-\lambda\end{bmatrix} \right)=0 \Rightarrow \lambda^2-4\lambda-5=0 \Rightarrow \lambda=5,-1 \not \in \mathbb N \\(C)\det \left(\begin{bmatrix} 2-\lambda & 3\\ 1& 4-\lambda\end{bmatrix} \right)=0 \Rightarrow \lambda^2-6\lambda+5=0 \Rightarrow \lambda =1,5 \\ (D)\det \left(\begin{bmatrix} 3-\lambda & 4\\ 1 & 2-\lambda\end{bmatrix} \right)=0 \Rightarrow \lambda^2-5\lambda+2=0 \Rightarrow \lambda \not \in \mathbb N \\,故選\bbox[red, 2pt]{(C)}解答:
假設\cases{A(\alpha,0)\\ B(\beta,0)\\ C(0,c)} \Rightarrow \cases{\overrightarrow{AC}=(\alpha,-c) \\\overrightarrow{BC}=(\beta,-c) \\ \alpha\beta =c/a} \Rightarrow \overrightarrow{AC} \cdot \overrightarrow{BC}=0 \Rightarrow \alpha\beta +c^2=0 \Rightarrow {c\over a}+c^2=0 \\ \Rightarrow c+ac^2=0 \Rightarrow c(1+ac)=0 \Rightarrow ac=-1,故選\bbox[red, 2pt]{(A)}解答:
x遞減則y遞減\Rightarrow r\gt 0 \Rightarrow y截距為負值 \Rightarrow 不過第二象限,故選\bbox[red, 2pt]{(B)}解答:
每個集合可以含1不含1,含2不含2,含3不含3,有2^3種可能\\ 因此組數=2^3\cdot 2^3\cdot 2^3-2^2\cdot 2^2\cdot 2^2\cdot 3+ 2\cdot 2\cdot 2\cdot 3-1=343,故選\bbox[red, 2pt]{(D)}解答:
\cases{A(0,2)\\ B(3,1)} \Rightarrow\overline{AB}的中垂線 L:3x-y-3=0 ,由於\overline{AB}為兩圓的一弦,因此圓心在L上\\ 因此假設圓心C(a,3a-3) ,圓與x軸相切,因此圓半徑3a-3\\ \Rightarrow 圓方程式:(x-a)^2+(y-3a+3)^2=(3a-3)^2,\\將A(0,2)代入上式\Rightarrow a^2+(5-3a)^2=(3a-3)^2 \Rightarrow a^2-12a+16=0 \\假設兩根為\alpha,\beta \Rightarrow \alpha+\beta =12 \Rightarrow 兩圓半徑之和=(3\alpha-3) +(3\beta-3) =3(\alpha+\beta)-6\\ =3\times 12-6=30,故選\bbox[red, 2pt]{(B)}解答:
函數不一定可微,泰勒級數為無窮級數,極限為0才收斂,故選\bbox[red, 2pt]{(C)}解答:
E在\overline{AB}的中垂線上,又\overline{AB}=2 \Rightarrow \overline{BE}在\overline{AB}的投影長度為1 \Rightarrow \overrightarrow{BE}\cdot \overrightarrow{BA}=2\cdot 1=2 \\ \Rightarrow \overrightarrow{BE}\cdot \overrightarrow{AB}=-2,故選\bbox[red, 2pt]{(D)}解答:
\cot(2\alpha) -\sqrt 3=\sec \alpha \Rightarrow {\cos 2\alpha \over \sin 2\alpha}-{1\over \cos \alpha}=\sqrt 3 \Rightarrow {1-2\sin^2\alpha\over 2\sin \alpha\cos \alpha}-{1\over \cos \alpha}=\sqrt 3 \\ \Rightarrow 1-2\sin^2\alpha-2\sin\alpha=2 \sqrt 3\sin \alpha\cos \alpha =2\sqrt 3\sin \alpha\cdot \sqrt{1-\sin^2\alpha} \\ \Rightarrow (1-2\sin^2\alpha-2\sin\alpha)^2=12\sin^2\alpha (1-\sin^2\alpha)\\ \Rightarrow 16\sin^4\alpha +8\sin^3\alpha -12\sin ^2\alpha-4\sin \alpha+1=0 \\ \Rightarrow -4\sin\alpha(3\sin\alpha- 4\sin^3\alpha)-(-8\sin^3\alpha+6\sin \alpha)+2\sin \alpha+1=0\\ \Rightarrow -4\sin \alpha\sin(3\alpha)-2\sin(3\alpha)+2\sin \alpha+1=0 \Rightarrow -2\sin(3\alpha)(2\sin\alpha+1)+2\sin \alpha+1=0\\ \Rightarrow (1-2\sin(3\alpha))(2\sin \alpha+1)=0 \Rightarrow \sin(3\alpha)={1\over 2} \Rightarrow 3\alpha=30^\circ \Rightarrow \alpha=10^\circ,故選\bbox[red, 2pt]{(A)}解答:
|z^2+1|=|z| \Rightarrow (|z^2+1|)^2=(|z|)^2 \Rightarrow (z^2+1)(\bar z^2+1)=z\bar z\\ \Rightarrow z^2\bar z^2+ z^2+\bar z^2+1= z^2\bar z^2+ (z+\bar z)^2-2z\bar z+1=z\bar z \\ \Rightarrow z^2\bar z^2 +(z+\bar z)^2-3z\bar z+1=0 \Rightarrow r^4-3r^2+s^2+1=0,其中\cases{r^2=z\bar z\\ s=z+\bar z},r,s \in \mathbb R\\ \Rightarrow r^2={3+\sqrt{5-4s^2}\over 2} \Rightarrow r^2的最大值={3+\sqrt 5\over 2},其中s=0\\ \Rightarrow r的最大值=\sqrt{3+\sqrt 5\over 2} ={\sqrt {6+2\sqrt 5}\over 2} ={1+\sqrt 5\over 2},故選\bbox[red, 2pt]{(D)}================== END ========================
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第四題 (D) wolfram 積分出來也是0 耶...
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