Polynomial From Roots
(the database of solved problems)
All the problems and solutions shown below were generated using the Polynomial From Roots Calculator.
| ID |
Problem |
Count |
| 1101 | Find the polynomial having roots at $ -3 $ , $ 1 $ and $ \dfrac{ 2 }{ 3 } $ . | 3 |
| 1102 | Find the polynomial having roots at $ 0 $ , $ 6 $ and $ -4 $ . | 3 |
| 1103 | Find the polynomial having roots at $ 2 $ , $ -9 $ and $ -3 $ . | 3 |
| 1104 | Find the polynomial having roots at $ 1 $ , $ 2 $ and $ 7 $ . | 3 |
| 1105 | Find the polynomial having roots at $ -10 $ . | 3 |
| 1106 | Find the polynomial having roots at $ -7 $ and $ 3 $ . | 3 |
| 1107 | Find the polynomial having roots at $ \dfrac{ 1 }{ 2 } $ , $ \dfrac{ 1 }{ 3 } $ and $ \dfrac{ 2 }{ 5 } $ . | 3 |
| 1108 | Find the polynomial having roots at $ 1 $ and $ -9 $ . | 3 |
| 1109 | Find the polynomial having roots at $ 2 $ , $ 3 $ and $ -1 $ . | 3 |
| 1110 | Find the polynomial having roots at $ -1 $ , $ 1 $ , $ -2 $ , $ 2 $ and $ 3 $ . | 3 |
| 1111 | Find the polynomial having roots at $ 2 $ and $ 3 $ . | 3 |
| 1112 | Find the polynomial having roots at $ 0 $ , $ -4 $ and $ -1 $ . | 3 |
| 1113 | Find the polynomial having roots at $ -5 $ , $ 2 $ and $ 8 $ . | 3 |
| 1114 | Find the polynomial having roots at $ -5 $ . | 3 |
| 1115 | Find the polynomial having roots at $ 1 $ , $ 1 $ and $ 1 $ . | 3 |
| 1116 | Find the polynomial having roots at $ 3 $ and $ 7 $ . | 3 |
| 1117 | Find the polynomial having roots at $ 7 $ and $ -9 $ . | 3 |
| 1118 | Find the polynomial having roots at $ 1 $ , $ 3 $ and $ -8 $ . | 3 |
| 1119 | Find the polynomial having roots at $ -1 $ , $ 4 $ and $ 2 $ . | 3 |
| 1120 | Find the polynomial having roots at $ -9 $ and $ -4 $ . | 3 |
| 1121 | Find the polynomial having roots at $ \dfrac{ 2 }{ 3 } $ and $ -\dfrac{ 5 }{ 9 } $ . | 3 |
| 1122 | Find the polynomial having roots at $ -2 $ , $ 5 $ , $ 6 $ and $ -8 $ . | 3 |
| 1123 | Find the polynomial having roots at $ -\dfrac{ 7 }{ 6 } $ and $ 2 $ . | 3 |
| 1124 | Find the polynomial having roots at $ 1 $ , $ 2 $ and $ 6 $ . | 3 |
| 1125 | Find the polynomial having roots at $ -7 $ and $ 1 $ . | 3 |
| 1126 | Find the polynomial having roots at $ 5 $ and $ 2 $ . | 3 |
| 1127 | Find the polynomial having roots at $ -5 $ and $ -7 $ . | 3 |
| 1128 | Find the polynomial having roots at $ 1 $ , $ -4 $ and $ 2 $ . | 3 |
| 1129 | Find the polynomial having roots at $ -1 $ , $ 2 $ and $ -2 $ . | 3 |
| 1130 | Find the polynomial having roots at $ 5 $ , $ -4 $ and $ -3 $ . | 3 |
| 1131 | Find the polynomial having roots at $ 0 $ , $ 0 $ and $ 4 $ . | 3 |
| 1132 | Find the polynomial having roots at $ 4 $ and $ 5 $ . | 3 |
| 1133 | Find the polynomial having roots at $ -2 $ and $ 6 $ . | 3 |
| 1134 | Find the polynomial having roots at $ -7 $ , $ -1 $ and $ \dfrac{ 1 }{ 2 } $ . | 3 |
| 1135 | Find the polynomial having roots at $ 4 $ , $ -3 $ and $ -3 $ . | 3 |
| 1136 | Find the polynomial having roots at $ 2 $ , $ -2 $ and $ -1 $ . | 3 |
| 1137 | Find the polynomial having roots at $ -2 $ , $ 0 $ , $ 1 $ and $ 3 $ . | 3 |
| 1138 | Find the polynomial having roots at $ -4 $ , $ 3 $ and $ 1 $ . | 3 |
| 1139 | Find the polynomial having roots at $ -6 $ and $ 3 $ . | 3 |
| 1140 | Find the polynomial having roots at $ 3 $ and $ 0 $ . | 3 |
| 1141 | Find the polynomial having roots at $ -\dfrac{ 2 }{ 5 } $ , $ \dfrac{ 3 }{ 2 } $ and $ 3 $ . | 3 |
| 1142 | Find the polynomial having roots at $ -3 $ and $ 3 $ . | 3 |
| 1143 | Find the polynomial having roots at $ 3 $ and $ -3 $ . | 3 |
| 1144 | Find the polynomial having roots at $ -3 $ , $ 0 $ and $ 3 $ . | 3 |
| 1145 | Find the polynomial having roots at $ -1 $ , $ 0 $ and $ 6 $ . | 3 |
| 1146 | Find the polynomial having roots at $ -5 $ , $ -2 $ , $ 3 $ and $ 5 $ . | 3 |
| 1147 | Find the polynomial having roots at $ \dfrac{ 612 }{ 25 } $ and $ -\dfrac{ 612 }{ 25 } $ . | 3 |
| 1148 | Find the polynomial having roots at $ 3 $ , $ -2 $ and $ 1 $ . | 3 |
| 1149 | Find the polynomial having roots at $ -4 $ , $ 3 $ , $ 3 $ and $ 3 $ . | 3 |
| 1150 | Find the polynomial having roots at $ 1 $ , $ \dfrac{ 3 }{ 2 } $ and $ 4 $ . | 3 |
