Right Triangle
(the database of solved problems)
All the problems and solutions shown below were generated using the Right Triangle Calculator.
| ID |
Problem |
Count |
| 1951 | Find the hypotenuse $ c $ of a right triangle if leg $b = \frac{ 122857 }{ 5000 }\, \text{cm}$ and angle $\alpha = \frac{ 67959 }{ 2500 }^o$. | 2 |
| 1952 | Find the leg $ b $ of a right triangle if hypotenuse $c = 56\, \text{cm}$ and angle $\alpha = \frac{ 67959 }{ 2500 }^o$. | 2 |
| 1953 | Find the hypotenuse $ c $ of a right triangle if leg $b = \frac{ 146857 }{ 2000 }\, \text{cm}$ and angle $\alpha = \frac{ 67959 }{ 2500 }^o$. | 2 |
| 1954 | Find the hypotenuse $ c $ of a right triangle if leg $b = 25\, \text{cm}$ and angle $\alpha = \frac{ 67959 }{ 2500 }^o$. | 2 |
| 1955 | Find the hypotenuse $ c $ of a right triangle if leg $b = \frac{ 107857 }{ 5000 }\, \text{cm}$ and angle $\alpha = \frac{ 132857 }{ 5000 }^o$. | 2 |
| 1956 | Find the hypotenuse $ c $ of a right triangle if leg $b = \frac{ 43571 }{ 5000 }\, \text{cm}$ and angle $\alpha = \frac{ 132857 }{ 5000 }^o$. | 2 |
| 1957 | Find the leg $ b $ of a right triangle if leg $a = 4 \sqrt{ 2 }$ and hypotenuse $c = \sqrt{ 87 }$. | 2 |
| 1958 | Find the leg $ b $ of a right triangle if leg $a = 2$ and hypotenuse $c = 2 \sqrt{ 2 }$. | 2 |
| 1959 | Find the leg $ a $ of a right triangle if leg $a = 20$. | 2 |
| 1960 | Find the angle $ \beta $ of a right triangle if leg $a = 11$ and angle $\alpha = 39^o$. | 2 |
| 1961 | Find the leg $ a $ of a right triangle if leg $a = \frac{ 13 }{ 2 }$ and angle $\alpha = 13^o$. | 2 |
| 1962 | Find the angle $ \beta $ of a right triangle if hypotenuse $c = 34$ and angle $\alpha = 23^o$. | 2 |
| 1963 | Find the leg $ b $ of a right triangle if leg $a = \frac{ 332 }{ 25 }$, hypotenuse $c = 34$, angle $\alpha = 23^o$ and angle $\beta = 67^o$. | 2 |
| 1964 | Find the leg $ b $ of a right triangle if hypotenuse $c = 34$ and angle $\alpha = 23^o$. | 2 |
| 1965 | Find the leg $ a $ of a right triangle if leg $a = \frac{ 120569 }{ 10000 }$, leg $b = 16$ and angle $\alpha = 37^o$. | 2 |
| 1966 | Find the hypotenuse $ c $ of a right triangle if leg $a = \frac{ 120569 }{ 10000 }$, leg $b = 16$, angle $\alpha = 37^o$ and angle $\beta = 57^o$. | 2 |
| 1967 | Find the hypotenuse $ c $ of a right triangle if leg $a = 12$, leg $b = 16$, angle $\alpha = 37^o$ and angle $\beta = 57^o$. | 2 |
| 1968 | Find the leg $ a $ of a right triangle if leg $b = 400$ and hypotenuse $c = 500$. | 2 |
| 1969 | Find the leg $ a $ of a right triangle if leg $a = 10$ and angle $\alpha = 85^o$. | 2 |
| 1970 | Find the angle $ \beta $ of a right triangle if leg $a = 13$ and angle $\alpha = \frac{ 4317 }{ 100 }^o$. | 2 |
| 1971 | Find the leg $ b $ of a right triangle if leg $a = 13$ and hypotenuse $c = 25$. | 2 |
| 1972 | Find the angle $ \beta $ of a right triangle if leg $b = \frac{ 24 }{ 5 }$ and hypotenuse $c = \frac{ 91 }{ 10 }$. | 2 |
| 1973 | Find the angle $ \alpha $ of a right triangle if leg $a = \frac{ 151 }{ 6250 }$ and leg $b = 420$. | 2 |
| 1974 | Find the leg $ a $ of a right triangle if leg $a = \frac{ 228973 }{ 10000 }$ and angle $\alpha = 58^o$. | 2 |
| 1975 | Find the leg $ a $ of a right triangle if leg $a = \frac{ 228973 }{ 10000 }$ and hypotenuse $c = 27$. | 2 |
| 1976 | Find the leg $ b $ of a right triangle if leg $a = \frac{ 25 }{ 2 }$ and hypotenuse $c = 16$. | 2 |
| 1977 | Find the angle $ \alpha $ of a right triangle if leg $a = \frac{ 25 }{ 2 }$ and leg $b = 10$. | 2 |
| 1978 | Find the leg $ a $ of a right triangle if hypotenuse $c = \sqrt{ 5 }$, angle $\alpha = 30^o$ and angle $\beta = 60^o$. | 2 |
| 1979 | Find the leg $ b $ of a right triangle if hypotenuse $c = \sqrt{ 5 }$, angle $\alpha = 30^o$ and angle $\beta = 60^o$. | 2 |
| 1980 | Find the angle $ \beta $ of a right triangle if leg $a = 5 \sqrt{ 2 }$ and hypotenuse $c = 30$. | 2 |
| 1981 | Find the hypotenuse $ c $ of a right triangle if leg $a = 7$ and leg $b = 24$. | 2 |
| 1982 | Find the leg $ b $ of a right triangle if hypotenuse $c = 2 \sqrt{ 38 }$ and angle $\alpha = 30^o$. | 2 |
| 1983 | Find the leg $ a $ of a right triangle if hypotenuse $c = 2 \sqrt{ 38 }$ and angle $\alpha = 30^o$. | 2 |
| 1984 | Find the leg $ b $ of a right triangle if leg $a = 8$ and angle $\alpha = 45^o$. | 2 |
| 1985 | Find the hypotenuse $ c $ of a right triangle if leg $a = \sqrt{ 33 }$ and angle $\alpha = 60^o$. | 2 |
| 1986 | Find the leg $ b $ of a right triangle if leg $a = \sqrt{ 33 }$ and angle $\alpha = 60^o$. | 2 |
| 1987 | Find the hypotenuse $ c $ of a right triangle if leg $a = 9 \sqrt{ 17 }$ and leg $b = 9 \sqrt{ 17 }$. | 2 |
| 1988 | Find the angle $ \alpha $ of a right triangle if leg $a = 9 \sqrt{ 17 }$ and leg $b = 9 \sqrt{ 17 }$. | 2 |
| 1989 | Find the leg $ b $ of a right triangle if leg $a = 10 \sqrt{ 35 }$ and hypotenuse $c = 20 \sqrt{ 35 }$. | 2 |
| 1990 | Find the angle $ \alpha $ of a right triangle if leg $a = 10 \sqrt{ 35 }$ and hypotenuse $c = 20 \sqrt{ 35 }$. | 2 |
| 1991 | Find the angle $ \alpha $ of a right triangle if leg $a = 4$ and hypotenuse $c = 8$. | 2 |
| 1992 | Find the angle $ \alpha $ of a right triangle if leg $a = 2 \sqrt{ 7 }$ and hypotenuse $c = 2 \sqrt{ 14 }$. | 2 |
| 1993 | Find the leg $ a $ of a right triangle if hypotenuse $c = \frac{ 4 \sqrt{ 3}}{ 3 }$, angle $\alpha = 45^o$ and angle $\beta = 45^o$. | 2 |
| 1994 | Find the leg $ b $ of a right triangle if hypotenuse $c = \frac{ 69 }{ 10 }$ and angle $\alpha = 61^o$. | 2 |
| 1995 | Find the leg $ a $ of a right triangle if hypotenuse $c = \frac{ 34 }{ 5 }$ and angle $\alpha = 36^o$. | 2 |
| 1996 | Find the leg $ b $ of a right triangle if hypotenuse $c = \frac{ 34 }{ 5 }$ and angle $\alpha = 36^o$. | 2 |
| 1997 | Find the leg $ a $ of a right triangle if leg $b = \frac{ 59 }{ 10 }$ and hypotenuse $c = \frac{ 81 }{ 10 }$. | 2 |
| 1998 | Find the angle $ \alpha $ of a right triangle if leg $a = 12$ and leg $b = 16$. | 2 |
| 1999 | Find the angle $ \alpha $ of a right triangle if leg $b = \frac{ 59 }{ 10 }$ and hypotenuse $c = \frac{ 81 }{ 10 }$. | 2 |
| 2000 | Find the angle $ \beta $ of a right triangle if leg $b = \frac{ 59 }{ 10 }$ and hypotenuse $c = \frac{ 81 }{ 10 }$. | 2 |
