Integrals
(the database of solved problems)
All the problems and solutions shown below were generated using the Integral Calculator.
| ID |
Problem |
Count |
| 2651 | $$ \displaystyle\int {x}^{2}{\cdot}\sin\left(5\right){\cdot}x\, \mathrm d x $$ | 1 |
| 2652 | $$ \displaystyle\int 5{\cdot}\cos\left(x\right)-4{\cdot}\sin\left(x\right)\, \mathrm d x $$ | 1 |
| 2653 | $$ \displaystyle\int 4{\cdot}\csc\left(x\right){\cdot}\cot\left(x\right)+2{\cdot}\sec\left(\color{orangered}{\square}\right)\, \mathrm d x $$ | 1 |
| 2654 | $$ \displaystyle\int -2x\, \mathrm d x $$ | 1 |
| 2655 | $$ $$ | 1 |
| 2656 | $$ %5cdisplaystyle%5cint %5csin%5cleft(2x%5cright)%5c, %5cmathrm d x $$ | 1 |
| 2657 | $$ \displaystyle\int^{\infty}_{17} \dfrac{\dfrac{1}{{\left({x}^{2}-64\right)}^{3}}}{2}\, \mathrm d x $$ | 1 |
| 2658 | $$ \displaystyle\int^{\infty}_{17} \dfrac{1}{{\left({x}^{2}-64\right)}^{\frac{3}{2}}}\, \mathrm d x $$ | 1 |
| 2659 | $$ \displaystyle\int^{4}_{0} {\mathrm{e}}^{x}\, \mathrm d x $$ | 1 |
| 2660 | $$ \displaystyle\int \dfrac{1}{2}{\cdot}x{\cdot}{\mathrm{e}}^{-x}\, \mathrm d x $$ | 1 |
| 2661 | $$ \displaystyle\int \dfrac{{x}^{3}+2x+x}{x+2}\, \mathrm d x $$ | 1 |
| 2662 | $$ $$ | 1 |
| 2663 | $$ \displaystyle\int \dfrac{\sqrt{1+{x}^{5}}}{\ln\left(x\right)+5}\, \mathrm d x $$ | 1 |
| 2664 | $$ \displaystyle\int \dfrac{1}{{\left(x{\cdot}\sqrt{1}{\cdot}x{\cdot}\ln\left(x\right)\right)}^{2}}\, \mathrm d x $$ | 1 |
| 2665 | $$ \displaystyle\int^{5}_{4} \dfrac{2x-1}{{x}^{2}-5x+6}\, \mathrm d x $$ | 1 |
| 2666 | $$ \displaystyle\int^{2}_{0} \sqrt{\sqrt{8t-{t}^{2}}+-t+{\left(\sqrt{t}\right)}^{1.2}+20}\, \mathrm d x $$ | 1 |
| 2667 | $$ \displaystyle\int^{6}_{3} \sqrt{{\left(\sqrt{12}\right)}^{2}+{\left(-2+(\sqrt{{2}^{1.2}+20})\right)}^{2}}\, \mathrm d x $$ | 1 |
| 2668 | $$ \displaystyle\int^{2}_{0} \sqrt{{\left(8x-x\right)}^{2}+-t+{\left(\sqrt{x}\right)}^{1.2}+20}\, \mathrm d x $$ | 1 |
| 2669 | $$ $$ | 1 |
| 2670 | $$ $$ | 1 |
| 2671 | $$ $$ | 1 |
| 2672 | $$ $$ | 1 |
| 2673 | $$ $$ | 1 |
| 2674 | $$ $$ | 1 |
| 2675 | $$ $$ | 1 |
| 2676 | $$ $$ | 1 |
| 2677 | $$ $$ | 1 |
| 2678 | $$ $$ | 1 |
| 2679 | $$ $$ | 1 |
| 2680 | $$ $$ | 1 |
| 2681 | $$ $$ | 1 |
| 2682 | $$ $$ | 1 |
| 2683 | $$ $$ | 1 |
| 2684 | $$ $$ | 1 |
| 2685 | $$ $$ | 1 |
| 2686 | $$ $$ | 1 |
| 2687 | $$ $$ | 1 |
| 2688 | $$ $$ | 1 |
| 2689 | $$ $$ | 1 |
| 2690 | $$ \displaystyle\int^{1}_{0} \dfrac{3{x}^{3}-{x}^{2}+2x-4}{\sqrt{{x}^{2}-3x+2}}\, \mathrm d x $$ | 1 |
| 2691 | $$ \displaystyle\int^{1}_{0} \dfrac{3{x}^{3}-{x}^{2}+2x-4}{s}{\cdot}q{\cdot}\sqrt{t}{\cdot}\left({x}^{2}-3x+2\right)\, \mathrm d x $$ | 1 |
| 2692 | $$ \displaystyle\int \dfrac{2}{500+t}\, \mathrm d x $$ | 1 |
| 2693 | $$ \displaystyle\int \dfrac{2}{500+x}\, \mathrm d x $$ | 1 |
| 2694 | $$ \displaystyle\int \dfrac{\dfrac{2}{{3}^{1}}}{2}\, \mathrm d x $$ | 1 |
| 2695 | $$ \displaystyle\int {\mathrm{e}}^{x}{\cdot}\tan\left(x\right)\, \mathrm d x $$ | 1 |
| 2696 | $$ \displaystyle\int^{e}_{1} 3{\cdot}\ln\left(x\right)\, \mathrm d x $$ | 1 |
| 2697 | $$ \displaystyle\int 3{\cdot}\ln\left(x\right)\, \mathrm d x $$ | 1 |
| 2698 | $$ \displaystyle\int \dfrac{\sqrt{{x}^{2}+1}}{x}\, \mathrm d x $$ | 1 |
| 2699 | $$ \int \frac{{1}}{{{5}{x}-{1}}} \, d\,x $$ | 1 |
| 2700 | $$ \displaystyle\int^{4}_{2} \left(7-x\right){\cdot}\sin\left(\dfrac{{\pi}{\cdot}\left(2n-1\right){\cdot}x}{4}\right)\, \mathrm d x $$ | 1 |
