Integrals
(the database of solved problems)
All the problems and solutions shown below were generated using the Integral Calculator.
| ID |
Problem |
Count |
| 6851 | $$ $$ | 1 |
| 6852 | $$ \displaystyle\int^{1}_{0} \sqrt{x}\, \mathrm d x $$ | 1 |
| 6853 | $$ \displaystyle\int \cos\left({x}^{2}\right)\, \mathrm d x $$ | 1 |
| 6854 | $$ $$ | 1 |
| 6855 | $$ $$ | 1 |
| 6856 | $$ $$ | 1 |
| 6857 | $$ $$ | 1 |
| 6858 | $$ $$ | 1 |
| 6859 | $$ $$ | 1 |
| 6860 | $$ $$ | 1 |
| 6861 | $$ $$ | 1 |
| 6862 | $$ $$ | 1 |
| 6863 | $$ $$ | 1 |
| 6864 | $$ $$ | 1 |
| 6865 | $$ $$ | 1 |
| 6866 | $$ \displaystyle\int 9{\cdot}\sqrt{x}-6{x}^{\frac{-2}{3}}\, \mathrm d x $$ | 1 |
| 6867 | $$ \displaystyle\int^{2}_{1} \dfrac{2{\pi}}{3}{\cdot}\left({x}^{4}+2{x}^{2}+2\right){\cdot}{\left({x}^{2}+2\right)}^{\frac{1}{2}}\, \mathrm d x $$ | 1 |
| 6868 | $$ \displaystyle\int^{2}_{1} \dfrac{2{\pi}}{3}{\cdot}\left({x}^{2}+2\right){\cdot}{\left({x}^{2}+2\right)}^{\frac{1}{2}}{\cdot}\left(1+{x}^{2}\right)\, \mathrm d x $$ | 1 |
| 6869 | $$ \int \frac{{1}}{\sqrt{{{x}^{{2}}-{2}}}} \, d\,x $$ | 1 |
| 6870 | $$ \int \frac{{1}}{\sqrt{{{3}-{x}^{{2}}}}} \, d\,x $$ | 1 |
| 6871 | $$ \displaystyle\int {x}^{\frac{5}{2}}+4{x}^{-\frac{1}{3}}+\mathrm{e}{\cdot}{\pi}-\dfrac{1}{\ln\left(2\right)}\, \mathrm d x $$ | 1 |
| 6872 | $$ \displaystyle\int {x}^{\frac{5}{2}}+4{x}^{-\frac{1}{3}}+\mathrm{e}{\cdot}{\pi}-\dfrac{1}{\ln\left(2\right)}\, \mathrm d x $$ | 1 |
| 6873 | $$ \displaystyle\int -4{x}^{-\frac{1}{3}}\, \mathrm d x $$ | 1 |
| 6874 | $$ \displaystyle\int 2x{\cdot}\sin\left({x}^{2}-4\right)\, \mathrm d x $$ | 1 |
| 6875 | $$ \displaystyle\int 9x{\cdot}{\left(3x+2\right)}^{3}\, \mathrm d x $$ | 1 |
| 6876 | $$ \displaystyle\int 9x{x}^{3}\, \mathrm d x $$ | 1 |
| 6877 | $$ \displaystyle\int 9x{x}^{3}\, \mathrm d x $$ | 1 |
| 6878 | $$ \displaystyle\int {x}^{3}{\cdot}\ln\left(x\right)\, \mathrm d x $$ | 1 |
| 6879 | $$ \displaystyle\int -2{\cdot}\sin\left(x\right)\, \mathrm d x $$ | 1 |
| 6880 | $$ \displaystyle\int 2{\cdot}\sin\left(x\right)\, \mathrm d x $$ | 1 |
| 6881 | $$ \displaystyle\int {\mathrm{e}}^{x}{\cdot}\sin\left(2x\right)\, \mathrm d x $$ | 1 |
| 6882 | $$ $$ | 1 |
| 6883 | $$ $$ | 1 |
| 6884 | $$ $$ | 1 |
| 6885 | $$ $$ | 1 |
| 6886 | $$ $$ | 1 |
| 6887 | $$ $$ | 1 |
| 6888 | $$ $$ | 1 |
| 6889 | $$ $$ | 1 |
| 6890 | $$ $$ | 1 |
| 6891 | $$ \int \frac{{{\sin{{x}}}{\cos{{x}}}}}{{{\left({\cos{{x}}}\right)}^{{2}}}}{\left({\sin{{x}}}+{1}\right)} \, d\,x $$ | 1 |
| 6892 | $$ \int \frac{{{\sin{{x}}}{\cos{{x}}}}}{{{\left({\left({\cos{{x}}}\right)}^{{2}}\right)}{\sin{{x}}}+{1}}} \, d\,x $$ | 1 |
| 6893 | $$ \int \frac{{{\sin{{x}}}{\cos{{x}}}}}{{{\left({\cos{{x}}}\right)}^{{2}}}}/{\left({\sin{{x}}}+{1}\right)} \, d\,x $$ | 1 |
| 6894 | $$ \int \frac{{\tan{{x}}}}{{{\sin{{x}}}+{1}}} \, d\,x $$ | 1 |
| 6895 | $$ $$ | 1 |
| 6896 | $$ $$ | 1 |
| 6897 | $$ $$ | 1 |
| 6898 | $$ $$ | 1 |
| 6899 | $$ $$ | 1 |
| 6900 | $$ $$ | 1 |
