| \(1 = 59^{5 - 5 }\) | \(2 = \sqrt{59 - 55 }\) | \(3 = \sqrt{55 + 9} - 5 \) | \(4 = 59 - 55 \) |
| \(5 = \sqrt{95 + 5} - 5 \) | \(6 = 5 + 5 + 5 - 9 \) | \(7 = \sqrt{59 - 5 - 5 }\) | \(8 = \frac{ 55 }{ 5 } - \sqrt{9 }\) |
| \(9 = ( 5 - 5 ) \cdot 5 + 9 \) | \(10 = 55 - 5 \cdot 9 \) | \(11 = \frac{ 5 + 5 }{ 5 } + 9 \) | \(12 = \frac{ 5! }{ \sqrt{95 + 5 } }\) |
| \(13 = \sqrt{55 + 9} + 5 \) | \(14 = \frac{ 95 }{ 5 } - 5 \) | \(15 = \sqrt{95 + 5} + 5 \) | \(16 = \sqrt{5 \cdot 5} \cdot 5 - 9 \) |
| \(17 = \frac{ 55 }{ 5 } + \sqrt{9 }!\) | \(18 = \frac{ 95 - 5 }{ 5 }\) | \(19 = \frac{ 95 }{ \sqrt{5 \cdot 5 } }\) | \(20 = \frac{ 55 }{ 5 } + 9 \) |
| \(21 = 5 \cdot 5 + 5 - 9 \) | \(22 = \frac{ 5! }{ 5 } - 5 + \sqrt{9 }\) | \(23 = 5 \cdot 5 - 5 + \sqrt{9 }\) | \(24 = ( 59 - 55 )!\) |
| \(25 = ( 9 - 5 ) \cdot 5 + 5 \) | \(26 = \frac{ 5^{\sqrt{9}} + 5 }{ 5 }\) | \(27 = 5 \cdot 5 + 5 - \sqrt{9 }\) | \(28 = \frac{ 5! }{ 5 } - 5 + 9 \) |
| \(29 = 5 \cdot 5 - 5 + 9 \) | \(30 = 5! - 95 + 5 \) | \(31 = 55 - ( 9 - 5 )!\) | \(32 = \frac{ 5! - 5 }{ 5 } + 9 \) |
| \(33 = \frac{ 55 }{ 5 } \cdot \sqrt{9 }\) | \(34 = 59 - 5 \cdot 5 \) | \(35 = 59 - \frac{ 5! }{ 5 }\) | \(36 = ( 5 - \frac{ 5 }{ 5 } ) \cdot 9 \) |
| \(37 = ( 5 - \sqrt{9} )^{5} + 5 \) | \(38 = \frac{ 5! }{ 5 } + 5 + 9 \) | \(39 = 5 \cdot 5 + 5 + 9 \) | \(40 = 95 - 55 \) |
| \(41 = 55 - 5 - 9 \) | \(42 = \frac{ ( 5 + 5 - \sqrt{9} )! }{ 5 ! }\) | \(43 = \frac{ 95 + 5! }{ 5 }\) | \(44 = 5 \cdot 9 - \frac{ 5 }{ 5 }\) |
| \(45 = ( 5 - 5 + 5 ) \cdot 9 \) | \(46 = \frac{ 5 }{ 5 } + 5 \cdot 9 \) | \(47 = 55 - 5 - \sqrt{9 }\) | \(48 = \frac{ ( 5 - \sqrt{9} ) \cdot 5! }{ 5 }\) |
| \(49 = 59 - 5 - 5 \) | \(50 = \sqrt{95 + 5} \cdot 5 \) | \(51 = 55 + 5 - 9 \) | \(52 = ?\) |
| \(53 = 55 - 5 + \sqrt{9 }\) | \(54 = 59 - \sqrt{5 \cdot 5 }\) | \(55 = 5 \cdot 9 + 5 + 5 \) | \(56 = 5! - 55 - 9 \) |
| \(57 = 55 + 5 - \sqrt{9 }\) | \(58 = 59 - \frac{ 5 }{ 5 }\) | \(59 = 55 - 5 + 9 \) | \(60 = \frac{ 5 }{ 5 } + 59 \) |
| \(61 = \sqrt{5 \cdot 5}! - 59 \) | \(62 = 5! - 55 - \sqrt{9 }\) | \(63 = 55 + 5 + \sqrt{9 }\) | \(64 = \sqrt{5 \cdot 5} + 59 \) |
| \(65 = ( 5 + 9 ) \cdot 5 - 5 \) | \(66 = 5! - ( 59 - 5 )\) | \(67 = \frac{ 5! }{ 5 } \cdot \sqrt{9} - 5 \) | \(68 = 5! - 55 + \sqrt{9 }\) |
| \(69 = 55 + 5 + 9 \) | \(70 = 95 - 5 \cdot 5 \) | \(71 = 95 - \frac{ 5! }{ 5 }\) | \(72 = ( 5 - \frac{ 5 }{ 5 } )! \cdot \sqrt{9 }\) |
| \(73 = \frac{ 5! \cdot \sqrt{9} + 5 }{ 5 }\) | \(74 = 5! - 55 + 9 \) | \(75 = ( 5 + 9 ) \cdot 5 + 5 \) | \(76 = ?\) |
| \(77 = \frac{ 5! }{ 5 } \cdot \sqrt{9} + 5 \) | \(78 = ?\) | \(79 = ( 9 - 5 )! + 55 \) | \(80 = ( 5 \cdot 5 - 9 ) \cdot 5 \) |
| \(81 = 9^{\frac{ 5 + 5 }{ 5 }}\) | \(82 = ?\) | \(83 = \frac{ 5! }{ 5 } + 59 \) | \(84 = 5 \cdot 5 + 59 \) |
| \(85 = 95 - 5 - 5 \) | \(86 = 5! - 5 \cdot 5 - 9 \) | \(87 = ( \frac{ 5! }{ 5 } + 5 ) \cdot \sqrt{9 }\) | \(88 = 5! - ( 5 - \sqrt{9} )^{5 }\) |
| \(89 = \frac{ \sqrt{9}!! }{ 5 } - 55 \) | \(90 = 95 - \sqrt{5 \cdot 5 }\) | \(91 = 5! - ( ( 9 - 5 )! + 5 )\) | \(92 = 5! - 5 \cdot 5 - \sqrt{9 }\) |
| \(93 = 5! - \frac{ 5! }{ 5 } - \sqrt{9 }\) | \(94 = 95 - \frac{ 5 }{ 5 }\) | \(95 = \frac{ 95 }{ 5 } \cdot 5 \) | \(96 = \frac{ 5 }{ 5 } + 95 \) |
| \(97 = ?\) | \(98 = 5! - 5 \cdot 5 + \sqrt{9 }\) | \(99 = \frac{ 55 }{ 5 } \cdot 9 \) | \(100 = 5 \cdot 9 + 55 \) |