2b:["$","$L30",null,{"questions":[{"id":926787,"slug":"evaluate-the-following-integrals-inttantextxcottextx2textdx_480679","question":"Evaluate the following integrals:
\r\n$\\int(\\tan\\text{x}+\\cot\\text{x})^2\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int(\\tan\\text{x}+\\cot\\text{x})^2\\text{dx}$
\r\n$=\\int(\\tan^2\\text{x}+\\cot^2\\text{x}+2\\tan\\text{x}\\cot\\text{x})\\text{dx}$
\r\n$=\\int(\\tan^2\\text{x}+\\cot^2\\text{x}+2)\\text{dx}$
\r\n$=\\int\\big[(\\sec^2\\text{x}-1)+(\\text{cosec}^2\\text{x}-1)+2\\big]\\text{dx}$
\r\n$=\\int(\\sec^2\\text{x}+\\text{cosec}^2\\text{x})\\text{dx}$
\r\n$=\\tan\\text{x}-\\cot\\text{x}+\\text{C}$","marks":3},{"id":926786,"slug":"intsintextxsqrt1cos2textxtext-dx_480680","question":"$$\\int\\sin\\text{x}\\sqrt{1+\\cos2\\text{x}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\sin\\text{x}\\sqrt{1+\\cos2\\text{x}}\\text{ dx}$
\r\n$=\\int\\sin\\text{x}.\\sqrt{2\\cos^2\\text{x}}\\text{ dx}$ $[\\therefore1+\\cos2\\text{x}=2\\cos^2\\text{x}]$
\r\n$=\\sqrt{2}\\int\\sin\\text{x}\\cos\\text{x dx}$
\r\n$=\\frac{\\sqrt{2}}{2}\\int2\\sin\\text{x}\\cos\\text{x dx}$
\r\n$=\\frac{1}{\\sqrt{2}}\\int\\sin2\\text{x dx}$
\r\n$=\\frac{1}{\\sqrt{2}}\\Big[\\frac{-\\cos2\\text{x}}{2}\\Big]+\\text{c}$
\r\n$=\\frac{-1}{2\\sqrt{2}}\\cos2\\text{x}+\\text{c}$","marks":3},{"id":926785,"slug":"if-fx-8x3-2x-f2-8-find-fx_480681","question":"If $f'(x) = 8x^3 - 2x, f'(2) = 8$, find $f'(x)$.","mcq":[null,null,null,null],"answer":"","solution":"We have,
\r\n$\\text{f}'\\text{(x)}=8\\text{x}^3-2\\text{x}$
\r\n$\\Rightarrow\\text{f}'\\text{(x)}=\\int\\text{f}'\\text{(x)dx}=\\int(8\\text{x}^3-2\\text{x})\\text{dx}$
\r\n$\\Rightarrow\\text{f}'\\text{(x)}=\\int(8\\text{x}^3-2\\text{x})\\text{dx}$
\r\n$=\\int8\\text{x}^3\\text{dx}-\\int2\\text{ x dx}$
\r\n$=\\frac{8\\text{x}^4}{4}-\\frac{2\\text{x}^2}{2}+\\text{C}$
\r\n$=2\\text{x}^4-\\text{x}^2+\\text{C}$
\r\n$\\Rightarrow\\text{f}'\\text{(x)}=2\\text{x}^4-\\text{x}^2+\\text{C}\\ \\dots(1)$
\r\nSince, $\\text{f}'(2)=8$
\r\n$\\therefore\\ \\text{f}'(2)=2(2)^4-(2)^2+\\text{C}=8$
\r\n$\\Rightarrow32-4+\\text{C}=8$
\r\n$\\Rightarrow28+\\text{C}=8$
\r\n$\\Rightarrow\\text{C}=-20$
\r\nPutting C = -20 in eq. (1), we get
\r\n$\\text{f}'\\text{(x)}=2\\text{x}^4-\\text{x}^2-20$
\r\nHence, $\\text{f}'\\text{(x)}=2\\text{x}^4-\\text{x}^2-20$","marks":3},{"id":926784,"slug":"evaluate-the-following-integrals-inttextx1textetextxcos2textxetextxtext-dx_480682","question":"Evaluate the following integrals:
\r\n$\\int\\frac{(\\text{x}+1)\\text{e}^\\text{x}}{\\cos^2(\\text{xe}^\\text{x})}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{(\\text{x}+1)\\text{e}^\\text{x}}{\\cos^2(\\text{xe}^\\text{x})}\\text{ dx}$
\r\nLet $\\text{x}\\text{e}^\\text{x}=\\text{t}$
\r\n$\\Rightarrow\\big(1.\\text{e}^\\text{x}+\\text{x}\\text{e}^\\text{x}\\big)=\\frac{\\text{dt}}{\\text{dx}}$
\r\n$\\Rightarrow(\\text{x}+1)\\text{e}^\\text{x}\\text{ dx}=\\text{dt}$
\r\nNow, $\\int\\frac{(\\text{x}+1)\\text{e}^\\text{x}}{\\cos^2(\\text{xe}^\\text{x})}\\text{ dx}$
\r\n$=\\int\\frac{\\text{dt}}{\\cos^2\\text{t}}$
\r\n$=\\sec^2\\text{t}\\text{ dt}$
\r\n$=\\tan(\\text{t})+\\text{C}$
\r\n$=\\tan\\big(\\text{xe}^\\text{x}\\big)+\\text{C}$","marks":3},{"id":926783,"slug":"evaluate-the-following-integrals-inttextx2cos2textx-dx_480683","question":"Evaluate the following integrals:
\r\n$\\int\\text{x}^2\\cos2\\text{x dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\text{x}^2\\cos2\\text{x}\\text{ dx}$
\r\nUsing integration by parts,
\r\n$\\text{I}=\\text{x}^2\\int\\cos2\\text{x dx}-\\int(2\\text{x}\\int\\cos2\\text{x dx})\\text{dx}$
\r\n$=\\text{x}^2\\frac{\\sin2\\text{x}}{2}-2\\int\\text{x}\\Big(\\frac{\\sin2\\text{x}}{2}\\Big)\\text{dx}$
\r\n$=\\frac{1}{2}\\text{x}^2\\sin2\\text{x}-\\int\\text{x}\\sin2\\text{x dx}$
\r\n$=\\frac{1}{2}\\text{x}^2\\sin2\\text{x}-[\\text{x}\\int\\sin2\\text{x dx}-\\int(1\\int\\sin2\\text{x dx})\\text{dx}]$
\r\n$=\\frac{1}{2}\\text{x}^2\\sin2\\text{x}-\\bigg[\\text{x}\\Big(\\frac{-\\cos2\\text{x}}{2}\\Big)-\\int\\Big(-\\frac{\\cos2\\text{x}}{2}\\Big)\\text{dx}\\bigg]$
\r\n$=\\frac{1}{2}\\text{x}^2\\sin2\\text{x}+\\frac{\\text{x}}{2}\\cos2\\text{x}-\\frac{1}{2}\\int(\\cos2\\text{x})\\text{dx}$
\r\n$\\text{I}=\\frac{1}{2}\\text{x}^2\\sin2\\text{x}+\\frac{\\text{x}}{2}\\cos2\\text{x}-\\frac{1}{4}\\sin2\\text{x}+\\text{C}$","marks":3},{"id":926782,"slug":"evaluate-the-following-integrals-intsinlogtextxtextxtext-dx_480684","question":"Evaluate the following integrals:
\r\n$\\int\\frac{\\sin(\\log\\text{x})}{\\text{x}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{\\sin(\\log\\text{x})}{\\text{x}}\\text{ dx}\\ ....(1)$ Let $\\log\\text{x}=\\text{t}$ then, $\\text{d}(\\log\\text{x})=\\text{dt}$ $\\Rightarrow\\frac{1}{\\text{x}}\\text{ dx}=\\text{dt}$ Putting $\\log\\text{x}=\\text{t}$ and $\\frac{1}{\\text{x}}\\text{ dx}=\\text{dt}$ in equation (1), We get,$\\text{I}=\\int\\sin\\text{t dt}$
\r\n$=-\\cos\\text{t}+\\text{C}$
\r\n$=-\\cos\\big(\\log\\text{x}\\big)+\\text{C}$","marks":3},{"id":926781,"slug":"evaluate-the-following-integrals-intsqrttantextxsec4textxtext-dx_480685","question":"Evaluate the following integrals:
\r\n$\\int\\sqrt{\\tan\\text{x}}\\sec^4\\text{x}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\sqrt{\\tan\\text{x}}\\sec^4\\text{x}\\text{ dx}$
\r\n$=\\int\\sqrt{\\tan\\text{x}}\\cdot\\sec^2\\text{x}\\cdot\\sec^2\\text{x}\\text{ dx}$
\r\n$=\\int\\sqrt{\\tan\\text{x}}\\cdot(1+\\tan^2\\text{x})\\sec^2\\text{x}\\text{ dx}$
\r\nLet $\\tan\\text{x}=\\text{t}$
\r\n$\\sec^2\\text{x}\\text{ dx}=\\text{ dt}$
\r\nNow, $\\int\\sqrt{\\tan\\text{x}}\\cdot(1+\\tan^2\\text{x})\\sec^2\\text{x}\\text{ dx}$
\r\n$=\\int\\sqrt{\\text{t}}(1+\\text{t}^2)\\text{dt}$
\r\n$=\\int\\Big(\\sqrt{\\text{t}}+\\text{t}^{\\frac{5}{2}}\\Big)\\text{dt}$
\r\n$=\\int\\Big(\\text{t}^{\\frac{1}{2}}+\\text{t}^{\\frac{5}{2}}\\Big)\\text{dt}$
\r\n$=\\frac{2}{3}\\text{t}^{\\frac{3}{2}}+\\frac{2}{7}\\text{t}^{\\frac{7}{2}}+\\text{C}$
\r\n$=\\frac{2}{3}\\tan^{\\frac{3}{2}}\\text{x}+\\frac{2}{7}\\tan^{\\frac{7}{2}}\\text{x}+\\text{C}$","marks":3},{"id":926780,"slug":"evaluate-the-following-integrals-inttextx3-3textx25textx-7textx2textatextx2textx2textdx_480686","question":"Evaluate the following integrals:
\r\n$\\int\\frac{\\text{x}^3-3\\text{x}^2+5\\text{x}-7+\\text{x}^2\\text{a}^\\text{x}}{2\\text{x}^2}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{\\text{x}^3-3\\text{x}^2+5\\text{x}-7+\\text{x}^2\\text{a}^\\text{x}}{2\\text{x}^2}\\text{dx}$
\r\n$=\\frac{1}{2}\\int\\frac{\\text{x}^3}{\\text{x}^2}\\text{dx}-\\frac{3}{2}\\int\\frac{\\text{x}^2}{\\text{x}^2}\\text{dx}+\\frac{5}{2}\\int\\text{x}\\frac{\\text{x}}{\\text{x}^2}\\text{dx}-\\frac{7}{2}\\int\\text{x}^{-2}\\text{dx}+\\frac{1}{2}\\int\\frac{\\text{x}^2\\text{a}^\\text{x}}{\\text{x}^2}\\text{dx}$
\r\n$=\\frac{1}{2}\\times\\frac{\\text{x}^2}{2}-\\frac{3}{2}\\text{x}+\\frac{5}{2}\\log\\text{x}-\\frac{7}{2}\\text{x}^{-1}+\\frac{1}{2}\\frac{\\text{a}^\\text{x}}{\\log\\text{a}}+\\text{C}$
\r\n$=\\frac{1}{2}\\Big[\\frac{\\text{x}^2}{2}-3\\text{x}+5\\log\\text{x}-\\frac{7}{\\text{x}}+\\frac{\\text{a}^\\text{x}}{\\log\\text{a}}\\Big]+\\text{C}$
\r\n$\\therefore\\ \\int\\frac{\\text{x}^3-3\\text{x}^2+5\\text{x}-7+\\text{x}^2\\text{a}^\\text{x}}{2\\text{x}^2}\\text{dx}$$=\\frac{1}{2}\\Big[\\frac{\\text{x}^2}{2}-3\\text{x}+5\\log\\text{x}-\\frac{7}{\\text{x}}+\\frac{\\text{a}^\\text{x}}{\\log\\text{a}}\\Big]+\\text{C}$","marks":3},{"id":926779,"slug":"evalute-the-following-integrals-inttexte2textxtexte2textx-2textdx_480687","question":"Evalute the following integrals:
\r\n$\\int\\frac{\\text{e}^{2\\text{x}}}{\\text{e}^{2\\text{x}}-2}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{\\text{e}^{2\\text{x}}}{\\text{e}^{2\\text{x}}-2}\\text{dx}$
\r\nPutting $e^{2x} = t$
\r\n$\\Rightarrow2\\text{e}^{2\\text{x}}=\\frac{\\text{dt}}{\\text{dx}}$
\r\n$\\Rightarrow\\text{e}^{2\\text{x}}\\text{dx}=\\frac{\\text{dt}}{2}$
\r\n$\\therefore\\text{I}=\\frac{1}{2}\\int\\frac{1}{\\text{t}-2}\\text{dt}$
\r\n$=\\frac{1}{2}\\text{ ln}|\\text{t}-2|+\\text{C}$
\r\n$=\\frac{1}{2}\\text{ ln}\\big|\\text{e}^{2\\text{x}}-2\\big|+\\text{C }\\big[\\text{t}=\\text{e}^{2\\text{x}}\\big]$","marks":3},{"id":926778,"slug":"evaluate-the-following-integrals-intsintextx-costextxsqrtsin2textxtext-dx_480688","question":"Evaluate the following integrals:$\\int\\frac{\\sin\\text{x}-\\cos\\text{x}}{\\sqrt{\\sin2\\text{x}}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"To evaluate the following integral follow the steps:
\r\n$\\int\\frac{\\sin\\text{x}-\\cos\\text{x}}{\\sqrt{\\sin2\\text{x}}}\\text{ dx}$
\r\n$=\\int\\frac{\\sin\\text{x}-\\cos\\text{x}}{\\sqrt{(\\sin\\text{x}+\\cos\\text{x})^2-1}}\\text{ dx}$
\r\nLet $\\sin\\text{x}+\\cos\\text{x}=\\text{t}$ therefore $(\\cos\\text{x}-\\sin\\text{x})\\text{ dx}=\\text{dt}$
\r\nNow,
\r\n$\\int\\frac{\\sin\\text{x}-\\cos\\text{x}}{\\sqrt{(\\sin\\text{x}+\\cos\\text{x})^2-1}}\\text{ dx}=-\\int\\frac{\\text{dt}}{\\sqrt{\\text{t}^2-1}}$
\r\n$=-\\ln\\Big|\\text{t}+\\sqrt{\\text{t}^2-1}\\Big|+\\text{C}$
\r\n$=-\\ln\\Big|\\sin\\text{x}+\\cos\\text{x}+\\sqrt{\\sin2\\text{x}}\\Big|+\\text{C}$","marks":3},{"id":926777,"slug":"evaluate-the-following-integrals-inttextxcos-1textxsqrt1-textx3textdx_480689","question":"Evaluate the following integrals:$\\int\\frac{\\text{x}\\cos^{-1}\\text{x}}{\\sqrt{1-\\text{x}^3}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$31","marks":3},{"id":926776,"slug":"evaluate-the-following-integrals-inttextx3sinbigtextx41bigtextdx_480690","question":"Evaluate the following integrals:
\r\n$\\int\\text{x}^3\\sin\\big(\\text{x}^4+1\\big)\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\text{x}^3.\\sin\\big(\\text{x}^4+1\\big)\\text{dx}$
\r\nLet $\\text{x}^4+1=\\text{t}$
\r\n$\\Rightarrow4\\text{x}^3=\\frac{\\text{dt}}{\\text{dx}}$
\r\n$\\Rightarrow\\text{x}^3\\text{ dx}=\\frac{\\text{dt}}{4}$
\r\nNow, $\\int\\text{x}^3.\\sin\\big(\\text{x}^4+1\\big)\\text{dx}$
\r\n$=\\frac{1}{4}\\int\\sin(\\text{t})\\text{dt}$
\r\n$=\\frac{1}{4}[-\\cos\\text{t}]+\\text{C}$
\r\n$=\\frac{1}{4}[-\\cos(\\text{x}^4+1)]+\\text{C}$","marks":3},{"id":926775,"slug":"evaluate-the-following-integrals-inttextxsin2textx-dx_480691","question":"Evaluate the following integrals:
\r\n$\\int\\text{x}\\sin2\\text{x dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\text{x}\\sin2\\text{x dx}$
\r\nUsing integration by parts,
\r\n$\\text{I}=\\text{x}\\int\\sin2\\text{x dx}-\\int(1\\int\\sin2\\text{x dx})\\text{dx}$
\r\n$=\\text{x}\\Big(-\\frac{\\cos2\\text{x}}{2}\\Big)-\\int\\Big(-\\frac{\\cos2\\text{x}}{2}\\Big)\\text{dx}$
\r\n$=-\\frac{\\text{x}}{2}\\cos2\\text{x}+\\frac{1}{2}\\int\\cos2\\text{x dx}$
\r\n$=-\\frac{\\text{x}}{2}\\cos2\\text{x}+\\frac{1}{2}\\frac{\\sin2\\text{x}}{2}+\\text{C}$
\r\n$\\text{I}=-\\frac{\\text{x}}{2}\\cos2\\text{x}+\\frac{1}{4}\\sin2\\text{x}+\\text{C}$","marks":3},{"id":926774,"slug":"evaluate-the-following-integrals-inttextetextxbigcottextx-textcosec2textxbigtextdx_480692","question":"Evaluate the following integrals:$\\int\\text{e}^{\\text{x}}\\big(\\cot\\text{x}-\\text{cosec}^2\\text{x}\\big)\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\text{e}^{\\text{x}}\\big(\\cot\\text{x}-\\text{cosec}^2\\text{x}\\big)\\text{dx}$
\r\n$=\\int\\text{e}^{\\text{x}}\\cot\\text{x dx}-\\int\\text{e}^{\\text{x}}\\text{cosec}^2\\text{x dx}$
\r\nIntegration by parts
\r\n$=\\text{e}^{\\text{x}}\\cot\\text{x}-\\int\\text{e}^{\\text{x}}\\Big(\\frac{\\text{d}}{\\text{dx}}\\cot\\text{x}\\Big)\\text{dx}-\\int\\text{e}^{\\text{x}}\\text{cosec}^2\\text{x dx}$
\r\n$=\\text{e}^{\\text{x}}\\cot\\text{x}+\\int\\text{e}^{\\text{x}}\\text{cosec}^2\\text{x dx}-\\int\\text{e}^{\\text{x}}\\text{cosec}^{2}\\text{x dx}$
\r\n$=\\text{e}^{\\text{x}}\\cot\\text{x+C}$
\r\n$\\int\\text{e}^{\\text{x}}\\big(\\cot\\text{x}-\\text{cosec}^2\\text{x}\\big)\\text{dx}=\\text{e}^\\text{x}\\cot\\text{x}+\\text{C}$","marks":3},{"id":926773,"slug":"evaluate-the-following-integrals-intsectextxtextlog-sectextxtantextxtextdx_480693","question":"Evaluate the following integrals:
\r\n$\\int\\sec\\text{x}.\\text{log} (\\sec\\text{x}+\\tan\\text{x})\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\sec\\text{x}.\\text{log} (\\sec\\text{x}+\\tan\\text{x})\\text{dx}$
\r\n$\\text{Let }\\text{ log}(\\sec\\text{x}+ \\tan\\text{x})=\\text{t}$
\r\n$\\Rightarrow \\frac{(\\sec\\text{x} \\tan\\text{x}+\\sec^{2}\\text{x})} {(\\sec\\text{x} +\\tan\\text{x})}=\\frac{\\text{dt}}{\\text{dx}}$
\r\n$\\Rightarrow \\frac{\\sec\\text{x} (\\sec\\text{x}+\\tan\\text{x})} {(\\sec\\text{x} +\\tan\\text{x})}\\text{dx}=\\text{dt}$
\r\n$\\text{Now},\\int\\sec \\text{x}.\\text{log}(\\sec\\text{x}+\\tan\\text{x})\\text{dx}$
\r\n$=\\int \\text{t}.\\text{dt}$
\r\n$=\\frac{\\text{t}^{2}}{2}+\\text{C}$
\r\n$=\\frac{[\\text{log}(\\sec\\text{x}+\\tan\\text{x})]^2}{2}+\\text{C}$","marks":3},{"id":926772,"slug":"evaluate-the-following-integrals-inttextx2textetextx3cosbigtextetextx3bigtextdx_480694","question":"Evaluate the following integrals:
\r\n$\\int\\text{x}^2\\text{e}^{\\text{x}^3}\\cos\\big(\\text{e}^{\\text{x}^3}\\big)\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\text{x}^2\\text{e}^{\\text{x}^3}\\cos\\big(\\text{e}^{\\text{x}^3}\\big)\\text{dx}\\ ....(1)$ Let $\\text{e}^{\\text{x}^3}=\\text{t}$ then, $\\text{d}\\big(\\text{e}^{\\text{x}^3}\\big)=\\text{dt}$ $\\Rightarrow3\\text{x}^2\\text{e}^{\\text{x}^3}\\text{dx}=\\text{dt}$ $\\Rightarrow\\text{x}^2\\text{e}^{\\text{x}^3}\\text{dx}=\\frac{\\text{dt}}{3}$Putting $\\text{e}^{\\text{x}^3}=\\text{t}$ and $\\text{dx}=\\frac{\\text{dt}}{3}$ in equation (1), we get
\r\n$\\text{I}=\\int\\cos\\text{t}\\frac{\\text{dt}}{3}$ $=\\frac{\\sin\\text{t}}{3}+\\text{C}$ $=\\frac{\\sin\\big(\\text{e}^{\\text{x}^3}\\big)}{3}+\\text{C}$ $\\text{I}=\\frac{1}{3}\\sin\\big(\\text{e}^{\\text{x}^3}\\big)+\\text{C}$","marks":3},{"id":926771,"slug":"evaluate-the-following-integrals-intsec2textx1-tan2textxtextdx_480695","question":"Evaluate the following integrals:$\\int\\frac{\\sec^2\\text{x}}{1-\\tan^2\\text{x}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{\\sec^2\\text{x dx}}{1-\\tan^2\\text{x}}$
\r\nLet $\\tan\\text{x = t}$
\r\n$\\Rightarrow\\sec^2\\text{x dx = dt}$
\r\nNow, $\\int\\frac{\\sec^2\\text{x dx}}{1-\\tan^2\\text{x}}$
\r\n$=\\int\\frac{\\text{dt}}{1-\\text{t}^2}$
\r\n$=\\frac{1}{2}\\log\\bigg|\\frac{1+\\text{t}}{1-\\text{t}}\\bigg|+\\text{C}$
\r\n$=\\frac{1}{2}\\log\\bigg|\\frac{1+\\tan\\text{x}}{1-\\tan\\text{x}}\\bigg|+\\text{C}$","marks":3},{"id":926770,"slug":"evaluate-the-following-integrals-intbigtextesin-1textxbig2sqrt1-textx2textdx_480696","question":"Evaluate the following integrals:
\r\n$\\int\\frac{\\big\\{\\text{e}^{\\sin^{-1}\\text{x}}\\big\\}^2}{\\sqrt{1-\\text{x}^2}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{e}^{\\sin^{-1}\\text{z}}=\\text{t}$
\r\nDifferentiating both sides w.r.t. x,
\r\n$\\text{e}^{\\sin^{-1}\\text{x}}\\times \\frac{1}{\\sqrt{1-\\text{x}^2}}\\text{dx}=\\text{dt}$
\r\nNow, $\\int \\frac{(\\text{e}^{\\sin-1_\\text{x}})^2}{\\sqrt{1-\\text{x}^2}}\\text{dx}$
\r\n$\\int \\text{e}^{\\sin^{-1}\\text{z}}\\times \\frac{\\text{e}^{\\sin^{-1}\\text{x}}}{\\sqrt{1-\\text{x}^2}}\\text{dx}$
\r\n$\\int \\text{t}.\\text{dt}$
\r\n$=\\frac{\\text{t}^2}{2}+\\text{C}$
\r\n$=\\frac{(\\text{e}^{\\sin^{-1}\\text{x}})^2}{2}+\\text{C}$","marks":3},{"id":926769,"slug":"write-a-value-of-intlogtextxtextntextxtext-dx_480697","question":"Write a value of $\\int\\frac{(\\log\\text{x})^{\\text{n}}}{\\text{x}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{(\\log\\text{x})^{\\text{n}}}{\\text{x}}\\text{ dx}$
\r\nLet $\\log\\text{x}=\\text{t}$
\r\n$\\frac{1}{\\text{x}}\\text{ dx}=\\text{dt}$
\r\n$\\text{dx}=\\text{xdt}$
\r\n$\\therefore\\ \\int\\frac{(\\log\\text{x})^{\\text{n}}}{\\text{x}}\\text{ dx}=\\int(\\text{t})^{\\text{n}}\\text{dt}$
\r\n$=\\frac{\\text{t}^{\\text{n}+1}}{\\text{n}+1}+\\text{C}$
\r\n$=\\frac{(\\log\\text{x})^{\\text{n}+1}}{(\\text{n}+1)}+\\text{C}$","marks":3},{"id":926768,"slug":"evaluate-the-following-integrals-int3sqrtcos2textxsintextx-textdx_480698","question":"Evaluate the following integrals:
\r\n$\\int3\\sqrt{\\cos^2\\text{x}}\\sin\\text{x }\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let I $=\\int3\\sqrt{\\cos^2\\text{x}}\\sin\\text{x }\\text{dx}\\ ....(1)$
\r\nLet $\\cos\\text{x}=\\text{t}$ then,
\r\n$\\text{d}(\\cos\\text{x})=\\text{dt}$
\r\n$\\Rightarrow-\\sin\\text{x}\\text{ dx}=\\text{dt}$
\r\n$\\Rightarrow\\text{dx}=-\\frac{\\text{dt}}{\\sin\\text{x}}$
\r\nPutting $\\cos\\text{x}=\\text{t}$ and $\\text{dx}=-\\frac{\\text{dt}}{\\sin\\text{x}}$ in equation (1), we get
\r\n$\\text{I}=\\int3\\sqrt{\\text{t}^2}\\sin\\text{x}\\times\\frac{-\\text{dt}}{\\sin\\text{x}}$
\r\n$=-\\int\\text{t}^\\frac{2}{3}\\sin\\text{x}\\frac{\\text{dt}}{\\sin\\text{x}}$
\r\n$=-\\int\\text{t}^\\frac{2}{3}\\text{dt}$
\r\n$=-\\frac{3}{5}\\times\\text{t}^\\frac{5}{3}+\\text{C}$
\r\n$=-\\frac{3}{5}(\\cos\\text{x})^\\frac{5}{3}+\\text{C}$
\r\n$\\therefore\\text{I}=-\\frac{3}{5}(\\cos\\text{x})^\\frac{5}{3}+\\text{C}$","marks":3},{"id":926767,"slug":"evaluate-the-following-integrals-int-1textx-1sqrt2textx3text-dx_480699","question":"Evaluate the following integrals:
\r\n$\\int \\frac{1}{(\\text{x}-1)\\sqrt{2\\text{x}+3}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int \\frac{1}{(\\text{x}-1)\\sqrt{2\\text{x}+3}}\\text{ dx}$
\r\nLet $2\\text{x}+3=\\text{t}^2$
\r\n$2\\text{dx}=2\\text{tdt}$
\r\n$\\therefore\\ \\text{I}=\\int\\frac{\\text{t dt}}{\\big(\\frac{\\text{t}^2-3}{2}-1\\big)\\text{t}}$
\r\n$=2\\int\\frac{\\text{dt}}{\\text{t}^2-5}$
\r\n$=\\frac{2}{2\\sqrt{5}}\\log\\Big|\\frac{\\text{t}-\\sqrt{5}}{\\text{t}+\\sqrt{5}}\\Big|+\\text{C}$
\r\nThus, $\\text{I}=\\frac{1}{\\sqrt{5}}\\log\\bigg|\\frac{\\sqrt{2\\text{x}+3}-\\sqrt{5}}{\\sqrt{2\\text{x}+3}+\\sqrt{5}}\\bigg|+\\text{C}$","marks":3},{"id":926766,"slug":"evaluate-the-following-integrals-inttextx1textx-2sqrttextxtextdx_480700","question":"Evaluate the following integrals:
\r\n$\\int\\frac{(\\text{x}+1)(\\text{x}-2)}{\\sqrt{\\text{x}}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{(\\text{x}+1)(\\text{x}-2)}{\\sqrt{\\text{x}}}\\text{dx}$
\r\n$=\\int\\bigg(\\frac{\\text{x}^2-2\\text{x}+\\text{x}-2}{\\sqrt{\\text{x}}}\\bigg)\\text{dx}$
\r\n$=\\bigg(\\frac{\\text{x}^2-\\text{x}-2}{\\sqrt{\\text{x}}}\\bigg)\\text{dx}$
\r\n$=\\int\\Big(\\text{x}^\\frac{3}{2}-\\text{x}^\\frac{1}{2}-2\\text{x}^\\frac{-1}{2}\\Big)\\text{dx}$
\r\n$=\\Bigg[\\frac{\\text{x}^{\\frac{3}{2}+1}}{\\frac{3}{2}+1}\\Bigg]-\\Bigg[\\frac{\\text{x}^{\\frac{1}{2}+1}}{\\frac{1}{2}+1}\\Bigg]-2\\Bigg[\\frac{\\text{x}^{-\\frac{1}{2}+1}}{-\\frac{1}{2}+1}\\Bigg]+\\text{C}$
\r\n$=\\frac{2}{5}\\text{x}^\\frac{5}{2}-\\frac{2}{3}\\text{x}^\\frac{3}{2}-4\\text{x}^\\frac{1}{2}+\\text{C}$","marks":3},{"id":926765,"slug":"evaluate-the-following-integrals-intcostextx1-costextxtextdxtext-or-intfraccottextxtextcos_480701","question":"Evaluate the following integrals:
\r\n$\\int\\frac{\\cos\\text{x}}{1-\\cos\\text{x}}\\text{dx}\\text{ or }\\int\\frac{\\cot\\text{x}}{\\text{cosec x}-\\cot\\text{x}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{\\cot\\text{x}}{\\text{cosec x}-\\cot\\text{x}}\\text{dx}$
\r\n$=\\int\\frac{\\frac{\\cos\\text{x}}{\\sin\\text{x}}}{\\frac{1}{\\sin\\text{x}}-\\frac{\\cos\\text{x}}{\\sin\\text{x}}}\\text{dx}$
\r\n$=\\int\\Big(\\frac{\\cos\\text{x}}{1-\\cos\\text{x}}\\Big)\\times\\frac{(1+\\cos\\text{x})}{(1+\\cos\\text{x})}\\text{dx}$
\r\n$=\\int\\Big(\\frac{\\cos\\text{x}+\\cos^2\\text{x}}{1-\\cos^2\\text{x}}\\Big)\\text{dx}$
\r\n$=\\int\\Big(\\frac{\\cos\\text{x}+\\cos^2\\text{x}}{\\sin^2\\text{x}}\\Big)\\text{dx}$
\r\n$=\\int\\Big(\\frac{\\cos\\text{x}}{\\sin\\text{x}}\\times\\frac{1}{\\sin\\text{x}}+\\frac{\\cos^2\\text{x}}{\\sin^2\\text{x}}\\Big)\\text{dx}$
\r\n$=\\int\\big[(\\cot\\text{x}\\text{ cosec x})+\\cot^2\\text{x}\\big]\\text{dx}$
\r\n$=\\int\\big[\\cot\\text{x}\\text{ cosec x}+\\text{cosec}^2\\text{x}-1\\big]\\text{dx}$
\r\n$=-\\text{cosec x}-\\cot\\text{x}-\\text{x}+\\text{C}$","marks":3},{"id":926764,"slug":"inttextx3textx-2textdx_480702","question":"$$\\int\\frac{\\text{x}^3}{\\text{x}-2}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\text{Let I}=\\int\\frac{\\text{x}^3}{\\text{x}-2}\\text{dx}$
\r\nUsing long division method, we have
\r\n$\\frac{\\text{x}^3}{\\text{x}-2}=\\text{x}^2+2\\text{x}+4+\\frac{8}{\\text{x}-2}$
\r\n$\\text{I}=\\int\\Big(\\text{x}^2+2\\text{x}+4+\\frac{8}{\\text{x}-2}\\Big)\\text{dx}$
\r\n$=\\int\\text{x}^2\\text{dx}+2\\int\\text{xdx}+4\\int\\text{dx}+8\\int\\frac{1}{\\text{x}-2}\\text{dx}$
\r\n$=\\frac{\\text{x}^3}{3}+\\frac{2\\text{x}^2}{2}+4\\text{x}+8\\log|\\text{x}-2|+\\text{c}$
\r\n$=\\frac{\\text{x}^3}{3}+\\text{x}^2+4\\text{x}+8\\log|\\text{x}-2|+\\text{c}$
\r\n$\\therefore\\text{I}=\\frac{\\text{x}^3}{3}+\\text{x}^2+4\\text{x}+8\\log|\\text{x}-2|+\\text{c}$","marks":3},{"id":926763,"slug":"evaluate-the-following-integrals-inttextcosec-textxtextcosec-textx-cottextxtextdx_480703","question":"Evaluate the following integrals:
\r\n$\\int\\frac{\\text{cosec }\\text{x}}{\\text{cosec }\\text{x}-\\cot\\text{x}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{\\text{cosec }\\text{x}}{\\text{cosec }\\text{x}-\\cot\\text{x}}\\text{dx}$
\r\n$=\\int\\frac{\\text{cosec }\\text{x}}{\\text{cosec }\\text{x}-\\cot\\text{x}}\\times\\frac{\\text{cosec x}+\\cot\\text{x}}{\\text{cosec x}+\\cot\\text{x}}\\times\\text{dx}$
\r\n$=\\int\\frac{\\text{cosec x}(\\text{cosec x}+\\cot\\text{x})}{\\text{cosec}^2\\text{x}-\\cot^2\\text{x}}\\text{dx}$
\r\n$=\\int(\\text{cosec}^2\\text{x}+\\text{cosec x}\\cot\\text{x})\\text{dx}$
\r\n$=\\int\\text{cosec}^2\\text{x dx}+\\int\\text{cosec x dx}$
\r\n$=-\\cot\\text{x}-\\text{cosec x}+\\text{C}$
\r\n$\\therefore\\ \\int\\frac{\\text{cosec }\\text{x}}{\\text{cosec }\\text{x}-\\cot\\text{x}}\\text{dx}=-\\cot\\text{x}-\\text{cosec x}+\\text{C}$","marks":3},{"id":926762,"slug":"write-a-value-of-inttextx2sintextx3text-dx_480704","question":"Write a value of $\\int\\text{x}^2\\sin\\text{x}^3\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\text{x}^2\\sin\\text{x}^3\\text{ dx}$
\r\nLet $\\text{x}^3=\\text{t}$
\r\n$=3\\text{x}^2\\text{dx}=\\text{dt}$
\r\n$=\\text{x}^2\\text{dx}=\\frac{1}{3}\\text{dt}$
\r\n$\\therefore\\ \\text{I}=\\frac{1}{3}\\int\\sin\\text{t dt}$
\r\n$=\\frac{1}{3}(-\\cos\\text{t})+\\text{C}$
\r\nHence, $\\text{I}=\\frac{-1}{3}\\cos\\text{x}^3+\\text{C}$","marks":3},{"id":926761,"slug":"inttextetextx12textetextxtext-dx_480705","question":"$$\\int(\\text{e}^{\\text{x}}+1)^2\\text{e}^{\\text{x}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"Consider $\\text{I}=\\int(\\text{e}^{\\text{x}}+1)^2\\text{e}^{\\text{x}}\\text{dx}$
\r\nLet $(\\text{e}^{\\text{x}}+1)=\\text{t}\\rightarrow\\text{e}^{\\text{x}}\\text{dx}=\\text{dt}$
\r\n$\\text{I}=\\int(\\text{e}^\\text{x}+1)^2\\text{e}^{\\text{x}}\\text{dx}$
\r\n$=\\int(\\text{t})^2\\text{dt}$
\r\n$=\\frac{\\text{t}^3}{3}+\\text{c}$
\r\n$=\\frac{(\\text{e}^{\\text{x}}+1)^3}{3}+\\text{c}$","marks":3},{"id":926760,"slug":"evaluate-the-following-integrals-int1textx24sqrttextx21text-dx_480706","question":"Evaluate the following integrals:
\r\n$\\int\\frac{1}{(\\text{x}^2+4)\\sqrt{\\text{x}^2+1}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\text{I}=\\int\\frac{1}{(\\text{x}^2+4)\\sqrt{\\text{x}^2+1}}\\text{ dx}$
\r\nLet $\\text{x}^2+1=\\text{u}^2$
\r\n$2\\text{xdx}=2\\text{udu}$
\r\n$\\therefore\\ \\text{I}=\\int\\frac{\\text{u}}{(\\text{u}^2+3)\\text{u}}\\text{ du}$
\r\n$=\\int\\frac{1}{\\text{u}^2+3}\\text{ du}$
\r\n$=\\frac{1}{\\sqrt{3}}\\tan^{-1}\\Big(\\frac{\\text{u}}{\\sqrt{3}}\\Big)+\\text{C}$
\r\n$=\\frac{1}{\\sqrt{3}}\\tan^{-1}\\bigg(\\sqrt{\\frac{\\text{x}^2+1}{3}}\\bigg)+\\text{C}$","marks":3},{"id":926759,"slug":"evaluate-int1sin2textxcos2textxtext-dx_480707","question":"Evaluate $\\int\\frac{1}{\\sin^2\\text{x}\\cos^2\\text{x}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"Consider the integral
\r\n$\\text{I}=\\int\\frac{1}{\\sin^2\\text{x}\\cos^2\\text{x}}\\text{ dx}$
\r\n$=\\int\\frac{\\sin^2\\text{x}+\\cos^2\\text{x}}{\\sin^2\\text{x}\\cos^2\\text{x}}\\text{ dx}$
\r\n$=\\int\\big(\\sec^2\\text{x}+\\text{cosec}^2\\text{x}\\big)\\text{dx}$
\r\n$=\\int\\sec^2\\text{x dx}+\\int\\text{cosec}^2\\text{x dx}$
\r\n$=\\tan\\text{x}-\\cot\\text{x}+\\text{C}$
\r\n$=\\frac{\\sin\\text{x}}{\\cos\\text{x}}-\\frac{\\cos\\text{x}}{\\sin\\text{x}}+\\text{C}$
\r\n$=\\frac{\\sin^2\\text{x}-\\cos^2\\text{x}}{\\sin\\text{x}\\cos\\text{x}}+\\text{C}$
\r\n$=-\\frac{2\\cos2\\text{x}}{\\sin2\\text{x}}+\\text{C}$
\r\n$=-2\\cot2\\text{x}+\\text{C}$","marks":3},{"id":926758,"slug":"intcos42textx-dx_480708","question":"$$\\int\\cos^42\\text{x dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\cos^42\\text{x dx}$
\r\n$=\\int(\\cos^22\\text{x})^2\\text{dx}$
\r\n$=\\int\\Big(\\frac{1+\\cos4\\text{x}}{2}\\Big)^2\\text{dx}$ $\\Big[\\therefore\\cos^2\\text{x}=\\frac{1+\\cos2\\text{x}}{2}\\Big]$
\r\n$=\\frac{1}{4}\\int(1+\\cos4\\text{x})^2\\text{dx}$
\r\n$=\\frac{1}{4}\\int(1+\\cos^24\\text{x}+2\\cos4\\text{x})\\text{dx}$
\r\n$=\\frac{1}{4}\\Big[1+\\Big(\\frac{1+\\cos8\\text{x}}{2}\\Big)+2\\cos4\\text{x}\\Big]\\text{dx}$
\r\n$=\\frac{1}{4}\\int\\Big(\\frac{3}{2}+\\frac{\\cos8\\text{x}}{2}+2\\cos4\\text{x}\\Big]\\text{dx}$
\r\n$=\\frac{1}{4}\\Big[\\frac{3\\text{x}}{2}+\\frac{\\sin8\\text{x}}{16}+\\frac{2\\sin4\\text{x}}{4}\\Big]+\\text{C}$
\r\n$=\\frac{3\\text{x}}{8}+\\frac{\\sin8\\text{x}}{64}+\\frac{\\sin4\\text{x}}{8}+\\text{C}$","marks":3},{"id":926757,"slug":"evaluate-the-following-integrals-int1textxsqrt4-9logtextx2text-dx_480709","question":"Evaluate the following integrals:$\\int\\frac{1}{\\text{x}\\sqrt{4-9(\\log\\text{x})^2}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{\\text{dx}}{\\text{x}\\sqrt{4-9(\\log\\text{x})^2}}$
\r\nLet $\\log\\text{x}=\\text{t}$
\r\n$\\Rightarrow\\frac{1}{\\text{x}}\\text{ dx}=\\text{dt}$
\r\nNow, $\\int\\frac{\\text{dx}}{\\text{x}\\sqrt{4-9(\\log\\text{x})^2}}$
\r\n$=\\int\\frac{\\text{dt}}{\\sqrt{4-9\\text{t}^2}}$
\r\n$=\\int\\frac{\\text{dt}}{\\sqrt{2^2-(3\\text{t})^2}}$
\r\n$=\\frac{1}{3}\\sin^{-1}\\Big(\\frac{3\\text{t}}{2}\\Big)+\\text{C}$
\r\n$=\\frac{1}{3}\\sin^{-1}\\Big(\\frac{3\\log\\text{x}}{2}\\Big)+\\text{C}$","marks":3},{"id":926756,"slug":"evaluate-the-following-intregals-int1cos2textx3sin2textx-textdx_480710","question":"Evaluate the following intregals:
\r\n$\\int\\frac{1}{\\cos2\\text{x}+3\\sin^2\\text{x}}\\ \\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{1}{\\cos2\\text{x}+3\\sin^2\\text{x}}\\ \\text{dx}$
\r\n$=\\int\\frac{1}{2\\cos^2\\text{x}-1+3\\sin^2\\text{x}}\\ \\text{dx}$
\r\n$\\text{I}=\\frac{1}{\\sqrt{2}}\\int\\frac{1}{1+\\text{t}^2}$
\r\nDividing numerator and denominator by $\\cos^2\\text{x}$
\r\n$\\text{I}=\\int\\frac{\\sec^2\\text{x}}{2-\\sec^2\\text{x}+3\\tan^2\\text{x}}\\ \\text{dx}$
\r\n$=\\int\\frac{\\sec^2\\text{x}}{2-(1+\\tan^2\\text{x})^2+3\\tan^2\\text{x}}\\ \\text{dx}$
\r\n$=\\int\\frac{\\sec^2\\text{x}}{2-1-\\tan^2\\text{x}+3\\tan^2\\text{x}}\\ \\text{dx}$
\r\n$=\\int\\frac{\\text{dt}}{1+2\\tan^2\\text{x}}$
\r\nLet $\\sqrt{2}\\tan\\text{x}=\\text{t}$
\r\n$\\sqrt{2}\\sec^2\\text{x dx}=\\text{dt}$
\r\n$=\\frac{1}{\\sqrt{2}}\\tan^{-1}\\text{t}+\\text{C}$
\r\n$\\text{I}=\\frac{1}{\\sqrt{2}}\\tan^{-1}(\\sqrt{2}\\tan\\text{x})+\\text{C}$","marks":3},{"id":926755,"slug":"evaluate-the-following-integrals-int1costextxtextxsintextx3textdx_480711","question":"\t\t\t\t\t\t\t\t\t\t\t\tEvaluate the following integrals:
\r\n$\\int\\frac{1+\\cos\\text{x}}{(\\text{x}+\\sin\\text{x})^3}\\text{dx}$\t\t\t\t\t\t\t\t\t\t\t","mcq":[null,null,null,null],"answer":"","solution":"\t\t\t\t\t\t\t\t\t\t\t\t$\\int\\frac{(1+\\cos\\text{x})}{(\\text{x}+\\sin\\text{x})^3}\\text{dx}$
\r\n$\\text{Let x}+\\sin\\text{x}=\\text{t}$
\r\n$\\Rightarrow(1+\\cos\\text{x})=\\frac{\\text{dt}}{\\text{dx}}$
\r\n$\\Rightarrow(1+\\cos\\text{x})\\text{dx}={\\text{dt}}$
\r\n$\\text{Now,}\\int\\frac{(1+\\cos\\text{x})}{(\\text{x}+\\sin\\text{x})^3}\\text{dx}$
\r\n$=\\int\\frac{\\text{dt}}{\\text{t}^3}$
\r\n$=\\int\\text{t}^{-3}\\text{dt}$
\r\n$=\\frac{\\text{t}^{-3+1}}{-3+1}+\\text{C}$
\r\n$=\\frac{-1}{2\\text{t}^2}+\\text{C}$
\r\n$=\\frac{-1}{2(\\text{x}+\\sin\\text{x})^2}+\\text{C}$\t\t\t\t\t\t\t\t\t\t\t","marks":3},{"id":926754,"slug":"evaluate-the-following-intregals-int1sin2textx-sin2textx-textdx_480712","question":"Evaluate the following intregals:
\r\n$\\int\\frac{1}{\\sin^2\\text{x}-\\sin2\\text{x}}\\ \\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{1}{\\sin^2\\text{x}-\\sin(2\\text{x})}\\ \\text{dx}$
\r\n$=\\int\\frac{1}{\\sin^2\\text{x}+2\\sin\\text{x}\\cos\\text{x}}\\text{ dx}$
\r\nDividing numerator and denominator by $\\cos^2\\text{x}$
\r\n$\\text{I}=\\int\\frac{\\sec^2\\text{x}}{\\tan\\text{x}+2\\tan\\text{x}}\\ \\text{dx}$
\r\nLet $\\tan\\text{x}=\\text{t}$
\r\n$\\sec^2\\text{x dx}=\\text{dt}$
\r\n$\\therefore\\text{I}=\\int\\frac{\\text{dt}}{\\text{t}^2+2\\text{t}}$
\r\n$=\\int\\frac{\\text{dt}}{\\text{t}^2+2\\text{t}+1-1}$
\r\n$=\\ln\\frac{\\text{dt}}{(\\text{t}+1)^2-(-1)^2}$
\r\n$=\\frac{1}{2}\\ln\\Big|\\frac{\\text{t}}{\\text{t}+2}\\Big|+\\text{C}$
\r\n$=\\frac{1}{2}\\ln\\Big|\\frac{\\tan\\text{x}}{\\tan\\text{x}+2}\\Big|+\\text{C}$","marks":3},{"id":926753,"slug":"evaluate-the-following-integrals-inttextxsintextx1costextxtextdx_480713","question":"Evaluate the following integrals:$\\int\\frac{\\text{x}+\\sin\\text{x}}{1+\\cos\\text{x}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\Big(\\frac{\\text{x}+\\sin\\text{x}}{1+\\cos\\text{x}}\\Big)\\text{dx}$
\r\n$=\\int\\Big[\\frac{\\text{x}}{1+\\cos\\text{x}}+\\frac{\\sin\\text{x}}{1+\\cos\\text{x}}\\Big]\\text{dx}$
\r\n$=\\int\\bigg[\\frac{\\text{x}}{2\\cos^{2}\\frac{\\text{x}}{2}}+\\frac{2\\sin\\frac{\\text{x}}{2}\\cos\\frac{\\text{x}}{2}}{2\\cos^2\\frac{\\text{x}}{2}}\\bigg]\\text{dx}$
\r\n$=\\frac{1}{2}\\int\\text{x}\\cdot\\sec^2\\frac{\\text{x}}{2}\\text{dx}+\\int\\tan\\frac{\\text{x}}{2}\\text{dx}$
\r\n$=\\frac{1}{2}\\bigg[\\text{x}\\cdot\\frac{\\tan\\big(\\frac{\\text{x}}{2}\\big)}{\\frac{1}{2}}-\\int1\\times2\\tan\\big(\\frac{\\text{x}}{2}\\big)\\text{dx}\\bigg]+\\frac{\\log\\big|\\sec\\frac{\\text{x}}{2}\\big|}{\\frac{1}{2}}+\\text{C}$
\r\n$=\\text{x}\\tan\\big(\\frac{\\text{x}}{2}\\big)-\\frac{\\log\\big|\\sec\\frac{\\text{x}}{2}\\big|}{\\frac{1}{2}}+\\log\\frac{\\big|\\sec\\frac{\\text{x}}{2}\\big|}{\\frac{1}{2}}+\\text{C}$
\r\n$=\\text{x}\\tan\\big(\\frac{\\text{x}}{2}\\big)+\\text{C}$","marks":3},{"id":926752,"slug":"evaluate-inttextelogsqrttextxtextxtextdx_480714","question":"Evaluate:
\r\n$\\int\\frac{\\text{e}^{\\log\\sqrt{\\text{x}}}}{\\text{x}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{\\text{e}^{\\log\\sqrt{\\text{x}}}}{\\text{x}}\\text{dx}=\\int\\frac{\\sqrt{\\text{x}}}{\\text{x}}\\text{dx}$
\r\n$=\\int\\text{x}^\\frac{1}{2}\\times\\text{x}^{-1}\\text{dx}$
\r\n$=\\int\\text{x}^{\\frac{1}{2}-1}\\text{dx}$
\r\n$=\\int\\frac{\\text{x}^{\\frac{-1}{2}+1}+\\text{c}}{\\frac{-1}{2}+1}$
\r\n$=\\frac{\\text{x}^\\frac{1}{2}}{\\frac{1}{2}}$
\r\n$=\\sqrt{\\text{x}}+\\text{c}$","marks":3},{"id":926751,"slug":"evaluate-the-following-integrals-inttexte2textx1textetextxtext-dx_480715","question":"Evaluate the following integrals:
\r\n$\\int\\frac{\\text{e}^{2\\text{x}}}{1+\\text{e}^\\text{x}}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{\\text{e}^{2\\text{x}}}{1+\\text{e}^\\text{x}}\\text{ dx}$ $\\Rightarrow\\int\\frac{\\text{e}^\\text{x}.\\text{e}^\\text{x}}{1+\\text{e}^\\text{x}}\\text{ dx}$ then, Let $1+\\text{e}^\\text{x}=\\text{t}$ $\\Rightarrow\\text{e}^\\text{x}=\\text{t}-1$ $\\Rightarrow\\text{e}^\\text{x}\\text{dx}=\\text{dt}$ Now, $\\int\\frac{\\text{e}^\\text{x}.\\text{e}^\\text{x}}{1+\\text{e}^\\text{x}}\\text{ dx}$$=\\int\\frac{(\\text{t}-1)\\text{dt}}{\\text{t}}$
\r\n$=\\Big(1-\\frac{1}{\\text{t}}\\Big)\\text{dt}$
\r\n$=\\text{t}-\\log|\\text{t}|+\\text{C}$
\r\n$=\\big(1+\\text{e}^\\text{x}\\big)-\\log\\big(1+\\text{e}^\\text{x}\\big)+\\text{C}$
\r\nLet $\\text{C}+1=\\text{C}^\\text{n}$ $=\\text{e}^\\text{x}-\\log\\big(1+\\text{e}^\\text{x}\\big)+\\text{C}^\\text{n}$","marks":3},{"id":926750,"slug":"evaluate-the-following-integrals-inttextatantextxtextbcot-textx2textdx_480716","question":"Evaluate the following integrals:
\r\n$\\int(\\text{a}\\tan\\text{x}+\\text{b}\\cot \\text{x})^2\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int(\\text{a}\\tan\\text{x}+\\text{b}\\cot \\text{x})^2\\text{dx}$
\r\n$=\\int(\\text{a}^2\\tan^2\\text{x}+\\text{b}^2\\cot^2\\text{x}+2\\text{ab}\\tan\\text{x}\\cot\\text{x})\\text{dx}$
\r\n$=\\text{a}^2\\int\\tan^2\\text{x dx}+\\text{b}^2\\int\\cot^2\\text{x dx}+2\\text{ab}\\int\\text{dx}$
\r\n$=\\text{a}^2\\int(\\sec^2\\text{x}-1)\\text{dx}+\\text{b}^2\\int(\\text{cosec}^2\\text{x}-1)\\text{dx}+2\\text{ab}\\int\\text{dx}$
\r\n$=\\text{a}^2[\\tan\\text{x}-\\text{x}]+\\text{b}^2[-\\cot\\text{x}-\\text{x}]+2\\text{ab}\\text{x}+\\text{C}$
\r\n$=\\text{a}^2\\tan\\text{x}-\\text{b}^2\\cot\\text{x}-(\\text{a}^2+\\text{b}^2-2\\text{ab})\\text{x}+\\text{C}$","marks":3},{"id":926749,"slug":"evaluate-the-following-integrals-intsin-1big2tantextx1tan2textxbigtextdx_480717","question":"Evaluate the following integrals:
\r\n$\\int\\sin^{-1}\\Big(\\frac{2\\tan\\text{x}}{1+\\tan^2\\text{x}}\\Big)\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\sin^{-1}\\Big(\\frac{2\\tan\\text{x}}{1+\\tan^2\\text{x}}\\Big)\\text{dx}$
\r\n$=\\int\\sin^{-1}(\\sin2\\text{x} )\\text{dx}$ $\\Big[\\because\\ \\sin2\\text{x}=\\frac{2\\tan\\text{x}}{1+\\tan^2\\text{x}}\\Big]$
\r\n$=\\int2\\text{ x dx}$
\r\n$=2\\int\\text{x dx}$
\r\n$=\\frac{2\\text{x}^2}{2}+\\text{C}$
\r\n$=\\text{x}^2+\\text{C}$
\r\n$\\therefore\\ \\int\\sin^{-1}\\Big(\\frac{2\\tan\\text{x}}{1+\\tan^2\\text{x}}\\Big)\\text{dx}=\\text{x}^2+\\text{C}$","marks":3},{"id":926748,"slug":"evaluate-the-following-integrals-int3textx51textx12textdx_480718","question":"Evaluate the following integrals:
\r\n$\\int\\frac{3\\text{x}^5}{1+\\text{x}^{12}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{3\\text{x}^5}{1+\\text{x}^{12}}\\text{dx}$
\r\n$=\\int\\frac{3\\text{x}^5}{1+(\\text{x}^6)^2}\\text{dx}$
\r\nLet $\\text{x}^6=\\text{t}$
\r\n$\\Rightarrow6\\text{x}^5\\text{dx = dt}$
\r\n$\\Rightarrow\\text{x}^5\\text{dx}=\\frac{\\text{dt}}{6}$
\r\n$\\text{I}=\\frac{3}{6}\\int\\frac{\\text{dt}}{1+\\text{t}^2}$
\r\n$=\\frac{1}{2}\\tan^{-1}(\\text{t})+\\text{C}$ $\\Big[\\text{Since}\\int\\frac{1}{\\text{x}^2+1}\\text{dx}=\\tan^{-1}\\text{x+C}\\Big]$
\r\n$\\text{I}=\\frac{1}{2}\\tan^{-1}(\\text{x}^6)+\\text{C}$","marks":3},{"id":926747,"slug":"evaluate-the-following-intregals-intsqrt1-textx1textxtextdx_480719","question":"Evaluate the following intregals:
\r\n$\\int\\sqrt{\\frac{1-\\text{x}}{1+\\text{x}}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\sqrt{\\frac{1-\\text{x}}{1+\\text{x}}}\\text{dx}$
\r\n$=\\int\\sqrt{\\frac{(1-\\text{x})(1-\\text{x})}{(1+\\text{x})(1-\\text{x})}}\\text{dx}$
\r\n$=\\int\\Big(\\frac{1-\\text{x}}{\\sqrt{1-\\text{x}^2}}\\Big)\\text{dx}$
\r\n$=\\int\\frac{\\text{dx}}{\\sqrt{1-\\text{x}^2}}-\\int\\frac{\\text{x dx}}{\\sqrt{1-\\text{x}^2}}$
\r\nPutting $1-\\text{x}^2=\\text{t}$
\r\n$\\Rightarrow-2\\text{x}\\text{ dx}=\\text{dt}$
\r\n$\\Rightarrow\\text{x dx}=-\\frac{\\text{dt}}{2}$
\r\nThen
\r\n$\\text{I}=\\int\\frac{\\text{dx}}{\\sqrt{1-\\text{x}^2}}+\\frac{1}{2}\\int\\frac{\\text{dt}}{\\sqrt{\\text{t}}}$
\r\n$=\\sin^{-1}(\\text{x})+\\frac{1}{2}\\times2\\sqrt{\\text{t}}+\\text{C}$
\r\n$=\\sin^{-1}(\\text{x})+\\sqrt{1-\\text{x}^2}+\\text{C}$","marks":3},{"id":926746,"slug":"int1sqrt2textx3sqrt2textx-3textdx_480720","question":"$$\\int\\frac{1}{\\sqrt{2\\text{x}+3}+\\sqrt{2\\text{x}-3}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{\\text{dx}}{(\\sqrt{2\\text{x}+3}+\\sqrt{2\\text{x}-3})}$
\r\nRationalise the denominator
\r\n$=\\int\\frac{(\\sqrt{2\\text{x}+3}-\\sqrt{2\\text{x}}-3)}{(\\sqrt{2\\text{x}+3}+\\sqrt{2\\text{x}-3})(\\sqrt{2\\text{x}+3}-\\sqrt{2\\text{x}-3})}\\text{dx}$
\r\n$=\\int\\frac{(\\sqrt{2\\text{x}+3}-\\sqrt{2\\text{x}-3})}{(2\\text{x}+3)-(2\\text{x}-3)}\\text{dx}$
\r\n$=\\frac{1}{6}\\int(2\\text{x}+3)^{\\frac{1}{2}}\\text{dx}-\\frac{1}{6}\\int(2\\text{x}-3)^{\\frac{1}{2}}\\text{dx}$
\r\n$=\\frac{1}{6}\\Bigg[\\frac{(2\\text{x}+3)^{\\frac{1}{2}+1}}{2\\big(\\frac{1}{2}+1\\big)}\\Bigg]-\\frac{1}{6}\\Bigg[\\frac{(2\\text{x}-3)^{\\frac{1}{2}+1}}{2\\big(\\frac{1}{2}+1\\big)}\\Bigg]+\\text{c}$
\r\n$=\\frac{1}{18}\\big\\{(2\\text{x}+3)^{\\frac{3}{2}}-(2\\text{x}-3)^{\\frac{3}{2}}\\big\\}+\\text{c}$","marks":3},{"id":926745,"slug":"evaluate-the-following-integrals-int1-cos2textx1cos2textxtextdx_480721","question":"Evaluate the following integrals:
\r\n$\\int\\frac{1-\\cos2\\text{x}}{1+\\cos2\\text{x}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\frac{1-\\cos2\\text{x}}{1+\\cos2\\text{x}}\\text{dx}$
\r\n$=\\int\\frac{2\\sin^2\\text{x}}{2\\cos^2\\text{x}}\\text{dx}$
\r\n$=\\int\\tan^2\\text{x dx}$
\r\n$=\\int(\\sec^2\\text{x}-1)\\text{dx}$
\r\n$=\\int\\sec^2\\text{x dx}-\\int\\text{dx}$
\r\n$=\\tan\\text{x}-\\text{x}+\\text{C}$
\r\n$\\therefore\\ \\int\\frac{1-\\cos2\\text{x}}{1+\\cos2\\text{x}}\\text{dx}=\\tan\\text{x}-\\text{x}+\\text{C}$","marks":3},{"id":926744,"slug":"evaluate-the-following-integrals-intsin5textxcostextxtext-dx_480722","question":"Evaluate the following integrals:
\r\n$\\int\\sin^5\\text{x}\\cos\\text{x}\\text{ dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\sin^5\\text{x}\\cos\\text{x}\\text{ dx}$
\r\nLet $\\sin\\text{x}=\\text{t}$
\r\n$\\cos\\text{x}\\text{ dx}=\\text{dt}$
\r\nNow, $\\int\\sin^5\\text{x}\\cos\\text{x}\\text{ dx}$
\r\n$=\\int\\text{t}^5\\text{dt}$
\r\n$=\\frac{\\sin^6\\text{x}}{6}+\\text{C}$
\r\n$=\\sin\\text{x}+\\frac{\\sin^5\\text{x}}{5}-\\frac{2}{3}\\sin^3\\text{x}$","marks":3},{"id":926743,"slug":"evalute-the-following-integrals-intcostextxcostextx-textatextdx_480723","question":"Evalute the following integrals:
\r\n$\\int\\frac{\\cos\\text{x}}{\\cos(\\text{x}-\\text{a})}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{\\cos\\text{x}}{\\cos(\\text{x}-\\text{a})}\\text{dx}$
\r\nPutting x - a = t
\r\n⇒ x = a + t
\r\n⇒ dx = dt
\r\n$\\therefore\\text{I}=\\int\\frac{\\cos(\\text{a}+\\text{t})\\text{dt}}{\\cos\\text{t}}$
\r\n$=\\frac{\\cos\\text{a}\\cos\\text{t}}{\\cos\\text{t}}-\\frac{\\sin\\text{a}\\sin\\text{t}}{\\cos\\text{t}}\\text{dt}$
\r\n$=\\int\\big(\\cos\\text{a}-\\sin\\text{a}\\tan\\text{t}\\big)\\text{dt}$
\r\n$=\\text{t}\\cos\\text{a}-\\sin\\text{a ln}|\\sec\\text{t}|+\\text{C}$
\r\n$=(\\text{x}-\\text{a})\\cos\\text{a}-\\sin\\text{a ln}|\\sec(\\text{a}-\\text{a})|+\\text{C}\\ \\big[\\text{t}=\\text{x}-\\text{a}\\big]$","marks":3},{"id":926742,"slug":"int1cos2textx1-tantextx2textdx_480724","question":"$$\\int\\frac{1}{\\cos^2\\text{x}(1-\\tan\\text{x})^2}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{1}{\\cos^2\\text{x}(1-\\tan\\text{x})^2}\\text{dx}$
\r\n$=\\int\\frac{\\sec^2\\text{x}}{(1-\\tan\\text{x})^2}\\text{dx}$
\r\n$=\\int\\frac{\\sec^2\\text{x dx}}{(1-\\tan\\text{x})^2}$
\r\n$-\\sec^2\\text{x dx}=\\text{dt}$
\r\n$\\Rightarrow\\sec^2\\text{x dx}=-\\text{dt}$
\r\n$\\therefore\\text{I}=\\int\\frac{-\\text{dt}}{\\text{t}^2}$
\r\n$=-\\int\\text{t}^{-2}\\text{dt}$
\r\n$=-\\bigg[\\frac{\\text{t}^{-2+1}}{-2+1}\\bigg]+\\text{c}$
\r\n$=\\frac{1}{\\text{t}}+\\text{c}$
\r\n$=\\frac{1}{1-\\tan\\text{x}}+\\text{c}$","marks":3},{"id":926741,"slug":"evaluate-the-following-integrals-int1textx26textx13textdx_480725","question":"Evaluate the following integrals:
\r\n$\\int\\frac{1}{\\text{x}^2+6\\text{x}+13}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"We have $\\text{x}^2+6\\text{x}+13=\\text{x}^2+6\\text{x}+3^2-3^2+13=(\\text{x}+3)^2+4$
\r\nSol, $\\int\\frac{\\text{dx}}{\\text{x}^2+6\\text{x}+13}=\\int\\frac{1}{(\\text{x}+3)^2+2^2}\\text{dx}$
\r\nLet $\\text{x}+3=\\text{t}$ Then $\\text{dx = dt}$
\r\nTherefore, $\\int\\frac{\\text{dx}}{\\text{x}^2+6\\text{x}+13}=\\int\\frac{\\text{dt}}{\\text{t}^2+2^2}=\\frac{1}{2}\\tan^{-1}\\frac{\\text{t}}{2}+\\text{c}$ [by 7.4 (3)]
\r\n$=\\frac{1}{2}\\tan^{-1}\\frac{\\text{x}+3}{2}+\\text{C}$","marks":3},{"id":926740,"slug":"evalute-the-following-integrals-intsectextxsec2textxtextdx_480726","question":"Evalute the following integrals:
\r\n$\\int\\frac{\\sec\\text{x}}{\\sec2\\text{x}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\frac{\\sec\\text{x}}{\\sec2\\text{x}}\\text{dx},$ then
\r\n$\\text{I}=\\int\\frac{\\frac{1}{\\cos\\text{x}}}{\\frac{1}{\\cos2\\text{x}}}\\text{dx}$
\r\n$=\\int\\frac{\\cos2\\text{x}}{\\cos\\text{x}}\\text{dx}$
\r\n$=\\int\\frac{2\\cos^2\\text{x}-1}{\\cos\\text{x}}\\text{dx}$
\r\n$=\\int2\\cos\\text{ x dx}-\\int\\frac{1}{\\cos\\text{x}}\\text{dx}$
\r\n$=2\\int\\cos\\text{dx}-\\int\\sec\\text{x dx}$
\r\n$=2\\sin\\text{x}-\\log|\\sec\\text{x}+\\tan\\text{x}|+\\text{C}$
\r\n$\\because\\text{I}=2\\sin\\text{x}-\\log|\\sec\\text{x}+\\tan\\text{x}|+\\text{C}$","marks":3},{"id":926739,"slug":"int1costextx1-costextxtextdx_480727","question":"$$\\int\\frac{1+\\cos\\text{x}}{1-\\cos\\text{x}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"$$\\int\\Big(\\frac{1+\\cos\\text{x}}{1-\\cos\\text{x}}\\Big)\\text{dx}$
\r\n$=\\int\\bigg(\\frac{2\\cos^2\\frac{\\text{x}}{2}}{2\\sin^2\\frac{\\text{x}}{2}}\\bigg)\\text{dx}$ $\\big[\\therefore1+\\cos\\text{x}=2\\cos^2\\frac{\\text{x}}{2} \\&1-\\cos\\text{x}=2\\sin^2\\frac{\\text{x}}{2}\\big]$
\r\n$=\\int\\cot^2\\frac{\\text{x}}{2}\\text{dx}$
\r\n$=\\int\\Big(\\text{cosec}^2\\frac{\\text{x}}{2}-1\\Big)\\text{dx}$
\r\n$=\\frac{-\\cot\\big(\\frac{\\text{x}}{2}\\big)}{\\frac{1}{2}}-\\text{x+c}$
\r\n$=-2\\cot\\big(\\frac{\\text{x}}{2}\\big)-\\text{x+c}$","marks":3},{"id":926738,"slug":"evaluate-the-following-integrals-inttextesqrttextxtextdx_480728","question":"Evaluate the following integrals:$\\int\\text{e}^{\\sqrt{\\text{x}}}\\text{dx}$","mcq":[null,null,null,null],"answer":"","solution":"Let $\\text{I}=\\int\\text{e}^{\\sqrt{\\text{x}}}\\text{dx}$
\r\nLet $\\sqrt{\\text{x}}=\\text{t}$
\r\n$\\text{x}=\\text{t}^2$
\r\n$\\text{dx}=2\\text{t dt}$
\r\n$\\text{I}=2\\int\\text{e}^{\\text{t}}\\text{t dt}$
\r\n$\\text{I}=2[\\text{t}\\int\\text{e}^{\\text{t}}\\text{dt}-\\int(1\\int\\text{e}^{\\text{t}}\\text{dt})\\text{dt}$
\r\n$\\text{I}=2[\\text{te}^\\text{t}-\\int\\text{e}^{\\text{t}}\\text{dt}]$
\r\n$=2[\\text{te}^{\\text{t}}-\\text{e}^{\\text{t}}]+\\text{C}$
\r\n$=2\\text{e}^{\\text{t}}(\\text{t}-1)+\\text{C}$
\r\n$\\text{I}=2\\text{e}^{\\sqrt{\\text{x}}}(\\sqrt{\\text{x}}-1)+\\text{C}$","marks":3}],"topicId":3373,"topicName":"3 Marks Question"}]

MATHS 3 Marks Question

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