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Câu 1.
\(y = \dfrac{{n + \sin 2n}}{{n + 5}} = \dfrac{{\dfrac{n}{n} + \dfrac{{\sin 2n}}{n}}}{{\dfrac{n}{n} + \dfrac{5}{n}}} = \dfrac{{1 + \dfrac{{2.\sin 2n}}{{2n}}}}{{1 + \dfrac{5}{n}}}\\ \Rightarrow \lim y = \dfrac{{1 + 0}}{{1 + 0}} = 1 \)
Câu 2.
\(\lim \dfrac{{3\sin n + 4\cos n}}{{n + 1}}\)
Vì \( - 1 \le \sin n \le 1; - 1 \le \cos n \le 1 \Rightarrow \) khi \(x \to \infty \) thì \(3\sin n + 4{\mathop{\rm cosn}\nolimits} = const \)
\(\Rightarrow T = \lim \dfrac{{3\sin n + 4\cos n}}{{n + 1}} = 0 \)
Chú thích: $const$ là kí hiệu hằng số, giống như dạng giới hạn L/vô cùng.
1 ) \(lim_{x\rightarrow+\infty}\dfrac{3x^2+5}{x^3-x+2}=lim_{x\rightarrow+\infty}\dfrac{\dfrac{3}{x}+\dfrac{5}{x^3}}{1-\dfrac{1}{x^2}+\dfrac{2}{x^3}}=0\)
2 ) \(lim_{x\rightarrow-\infty}\dfrac{2x^2\left(3x^2-5\right)^3\left(1-x\right)^5}{3x^{14}+x^2-1}\) \(=lim_{x\rightarrow-\infty}\dfrac{\dfrac{2}{x}\left(3-\dfrac{5}{x^2}\right)^3\left(\dfrac{1}{x}-1\right)^5}{3+\dfrac{1}{x^{12}}-\dfrac{1}{x^{14}}}=0\)
3 ) \(lim_{x\rightarrow+\infty}\dfrac{3x-\sqrt{2x^2+5}}{x^2-4}=lim_{x\rightarrow+\infty}\dfrac{\left(7x^2-5\right)}{\left(3x+\sqrt{2x^2+5}\right)\left(x^2-4\right)}\)
\(=lim_{x\rightarrow+\infty}\dfrac{\dfrac{7}{x}-\dfrac{5}{x^3}}{\left(3+\sqrt{2+\dfrac{5}{x^2}}\right)\left(1-\dfrac{4}{x^2}\right)}=0\)
\(\lim\limits_{x\rightarrow1}\dfrac{\sqrt[3]{7+x^3}-\sqrt{3+x^2}}{x-1}=\lim\limits_{x\rightarrow1}\dfrac{\left(\sqrt[3]{7+x^3}-2\right)-\left(\sqrt{3+x^2}-2\right)}{x-1}=\lim\limits_{x\rightarrow1}\dfrac{\dfrac{x^3-1}{\left(\sqrt[3]{7+x^3}\right)^2+2\sqrt[3]{7+x^3}+4}-\dfrac{x^2-1}{\sqrt{3+x^2}+2}}{x-1}=\lim\limits_{x\rightarrow1}\dfrac{\dfrac{x^2+x+1}{\left(\sqrt[3]{7+x^3}\right)^2+2\sqrt[3]{7+x^3}+4}-\dfrac{x+1}{\sqrt{3+x^2}+2}}{1}=\dfrac{3}{12}-\dfrac{2}{4}=\dfrac{1}{4}-\dfrac{1}{2}=-\dfrac{1}{4}\).
\(a=\lim n\left(\sqrt[3]{-1+\dfrac{2}{n}-\dfrac{5}{n^3}}\right)=+\infty.\left(-1\right)=-\infty\)
\(b=\lim\left(\sqrt{n+1}+\sqrt{n}\right)=+\infty\)
\(c=\lim n\left(\dfrac{1}{n^2+n}-1\right)=+\infty.\left(-1\right)=-\infty\)
\(d=\lim\left(\dfrac{2n^2-1-2n\left(n+1\right)}{n+1}\right)=\lim\left(\dfrac{-1-2n}{n+1}\right)=-2\)
\(e=\lim\dfrac{2n^2+n-3+\dfrac{1}{n}}{\dfrac{2}{n}-3}=\dfrac{+\infty}{-3}=-\infty\)
\(a,lim\dfrac{2n^2+1}{3n^3-3n+3}\)
\(=lim\dfrac{\dfrac{2}{n}+\dfrac{1}{n^3}}{3-\dfrac{3}{n^2}+\dfrac{3}{n^3}}=0\)
\(\lim\dfrac{-3n^3+1}{2n+5}=\lim\dfrac{-3n^2+\dfrac{1}{n}}{2+\dfrac{5}{n}}=\dfrac{-\infty}{2}=-\infty\)
\(\lim\dfrac{n^3-2n+1}{-3n-4}=\lim\dfrac{n^2-2+\dfrac{1}{n}}{-3-\dfrac{4}{n}}=\dfrac{+\infty}{-3}=-\infty\)
a)lim \(\frac{\sqrt{n^2-4n}-\sqrt{4n+1}}{\sqrt{3n^2+1}+n}\)
=lim \(\frac{\sqrt{1-\frac{4}{n}}-\sqrt{\frac{4}{n}+\frac{1}{n^2}}}{\sqrt{3+\frac{1}{n^2}}+1}=\frac{1}{\sqrt{3}+1}\)
b)lim \(\frac{\sqrt[3]{8n^3+n^2}-n}{2n-3}\)
= lim \(\frac{\sqrt[3]{8+\frac{1}{n^3}}-1}{2-\frac{3}{n}}=\frac{2-1}{2}=\frac{1}{2}\)
Do \(\left\{{}\begin{matrix}-1\le sinn\le1\\-1\le cosn\le1\end{matrix}\right.\)
\(\Rightarrow-2\le3sinn-4cosn+5\le12\)
\(\Rightarrow\dfrac{-2}{2n^5+1}\le\dfrac{3sinn-4cosn+5}{2n^5+1}\le\dfrac{12}{2n^5+1}\)
Mà \(lim\dfrac{-2}{2n^5+1}=\lim\dfrac{12}{2n^5+1}=0\)
\(\Rightarrow\lim\dfrac{3sinn-4cosn+5}{2n^5+1}=0\)
Em hỏi câu này với ạ, đối với dãy sai phân:
\(\left\{{}\begin{matrix}u_0=m;u_1=n\\u_{n+1}=a.u_n+b.u_{n-1}+f\left(n\right)\end{matrix}\right.\)
Trong đó a,b là các số thực sao cho pt \(x^2-ax-b=0\) có nghiệm, vậy nếu giờ pt vô nghiệm thì sao ạ?