몰 질량 of C20H31NO (AC-42) is 301.4662 g/mol
C20H31NO 중량과 몰 사이의 변환
다음 물질의 원소 조성 C20H31NO
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
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탄소 | C | 12.0107 | 20 | 79.6819 | 수소 | H | 1.00794 | 31 | 10.3647 | 질소 | N | 14.0067 | 1 | 4.6462 | 산소 | O | 15.9994 | 1 | 5.3072 |
몰질량을 단계별로 계산하기 |
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먼저 C20H31NO에 있는 각 원자의 수를 계산합니다.
C: 20, H: 31, N: 1, O: 1
그런 다음 주기율표 의 각 원소에 대한 원자량을 검색합니다.
C: 12.0107, H: 1.00794, N: 14.0067, O: 15.9994
이제 원자 수와 원자량의 곱의 합을 계산합니다.
몰 질량 (C20H31NO) = ∑ Counti * Weighti =
Count(C) * Weight(C) + Count(H) * Weight(H) + Count(N) * Weight(N) + Count(O) * Weight(O) =
20 * 12.0107 + 31 * 1.00794 + 1 * 14.0067 + 1 * 15.9994 =
301.4662 g/mol
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화학 구조 |
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![C20H31NO - 화학 구조](data:images/png;base64,iVBORw0KGgoAAAANSUhEUgAAAT0AAABpCAYAAABI8/TIAAAABGdBTUEAALGPC/xhBQAAACBjSFJNAAB6JgAAgIQAAPoAAACA6AAAdTAAAOpgAAA6mAAAF3CculE8AAAAB3RJTUUH5wwYEhUaQr17mwAAAAZiS0dEAP8A/wD/oL2nkwAAEmdJREFUGBntwQ2c13WBJ/D3f4YZUJER10dQK7IHGa0ue7QxdPOqS6dSI92uEBPdLdvlTIN1d29vVrHwco/YSkJdt2V7ULCHbaorRaWOrd0kKZUeTgiywlUB84Hnmfkcr/77iiMqBZ2Z///n9/1WFEXxBGo4F5/BEszDkWjBl3CAXV2GP1QURdGkPoLVmIxX4gpcj1YEh9nVYkzVBPbBS/FGHKpuJF5hdy/B/oqiqLrDsB3H210rgsPsajGmanCnYj2W4st4EBfgaGyxu5WYpCiKqnsdfuG3a0VwKl6NV+PVuANTNbAD8SjOs9METMTR2GJ3KzFJURRVdxbu8du1IrgZvehFLx7CVA3sDKxEze6Oxha7W4lJiqKouhOwATW7a0VwmF0txlQN7GL8b7/d0RjAEizBEizBZkxSFEXV7Y9HcabdtSI4zK4WY6oG9l4s8dsdja04FsfiWByL+zBJURTPBOdgI/4W5+Eq/CVaERxmV4sxVd2FWIDP4QgN4hSsw752dzS22N1KTFIUxTPFsfgrzMZ7cChq+HPsZ1dn4zh1J6h7By7QIEZgBT6J0eqOwnNxNLbY3UpMUncUpuFViqKoug78Ga7w5M3ErThYAzkK/4xNuB/34i14Dh6wu+V4DUbgE5iEL+PliqKossPRhy04wJPTjvfhfRpUG0bjuZ68g/EPeIGiKKruFgTneWLnYl+8G5doUCdhIxZ78v47voDxiqKouqkIbvPETsRH8H60aVBjsAn9GO+JjVT3Dvyxoiiqbgw2oh9HqoibEFzs9xuJz+B/4at4lqIongluRPABFXE6gjs9OfspiuKZ5M0Ivqci2rEOwbGKoih21YaHEBynIq5BcIWiKJ6S8PZwV3g0bAj/FA7R3OYh+JCKmIRgDWqKotgr4dTwUDgltISO8I9hWWjRvLoQ/BQtKqCG1Qi6FEWxV8LiMMP/J+wTHggna141/ATBa1XEhxDMUxTFXgm/CCf6DeHr4b2a2xUI5quIiQjWo11RFHssbAiv8BvCF8MlmtsxCDZgpIr4PoI3K4pij4Vl4R1+Q/hBOF3zuxPBW1XEDAQ3Kopij4W/DN8J+/kP4cywIXRofhcjWKQixqEPm9GhKIo9EkaGz4dV4drwz+Gh8EbVMA592IwDVMRtCKYqimKvhBeHs8NpoSOMCn8ULtX8FiN4t4o4D8EtiqLYa6E1HGmHcEjYHraGAzW3cxHcqiLGYBP6MV5RFHssHBfWhu/6D+HmkHC+5jYGm9CPI1TETQjeryiKPRbaw/qQ0GmHcE5IWKL5LURwiYo4HcF3FUWxV8K1IeFyO4T9w8YwEJ6tub0FwXIV0Y51CDoVRbHHwkkhYU2o2SHcEBJmam7tWI/gEhyDVk3uGgSzFEWxx0ItrA4JJ9ghdIeEFZrbaKzFTxEE27ACCzAT3ThEE5mE4EG0KIpij4UrQ8LH7RDawkMh4TjNqRW9CNbiy/gJgiAIgmANvoRZmIzno0UDasE2BFvRix5MRidqiqL4vUJnSFgf2u0Qrg4JszWnjyBYh+fZaQyOxxTMxVI8jiAIgmArVmABpuMUHKQBTEc/giAIgg24HXNxHl6GUYqi2EW4KyScZofwmpDw89CiuUxDsA0ne3LGoRs9WIgVGEAQBEGwFr2YjSnoRIshti9ei8noQS/uRxAEQdCHVehFD7oxATVF8QwVZoaEz9oh1MKqkHCS5vEGbMcA3mVXc3A1LsCrsJ/fbyxOwp/hOtyBzQiCIAgew7fQi0+hwzAZiy5MxwIswxYEQRAED2Mp5mM6urCPongGCEeG/rA5dNghXB7yAB/THI7Bwwgus7sHEARBsBa96MFkdKLmd2vFBHSjB71YhQEEQfBTDaQNnZiC2ejFvyMIgiDYjlXoRQ+68UJFUUFhSUg4xw638YKDWY71GKmxHYSVCBaiZlc1nIKL8Y9Yjq0IgiAIHsY38FFMw8uxj9/vD/A6fBoDCCZpcEfgVFyKG/BD9CEIgiDYirMURYX8kvPm86/Hc52dvovgDI1rFL6F4A7s68kZgU5MRg96sRZBEARBsBa96MFkdKJmd4sQfFATakMnpmA2erEdwXa0KIrqGIst6Md4de9H8DmNqYZPIViNQz11h+H1mIFP4W5sQxAEQbAet+FCO52I4KdoUQGteBzBaxVFtXwewUXqDkcftuJAjedyBI/iOIOnDZ2YjB704n4EwVw71fATBCeqiCsRXK0oquVMBMvsdAuCaRrLWRhAH04zPMbjv+DFdvVBBJ9QEZ0I1qNdUVTHSDyMYKK6qQhu1zi6sAXBhRrPMQg2YKSKuAtBt6KolusQXKZuf2zEAJ5t+D0HDyCYo3EtR/AWFTETwQ2KolpORrAGNXU3IJhheI3BPQi+ilaN6xIEC1XEePRjMzoURXW04D4EJ6jrRvB9w6cNixHcgw6NbRz6sBkHqIglCM5RFNVyJYKPq2vDQwiOMzzmIbgfR2kOtyJ4t4o4H8HNiqJaXoRgPd6G2/AQgn/ASENrBoJNeKXm8W4Et6qIDmxGP8arjiMwGx/EBNQUz0R3IRhAEATBdqxCL3rQjQkGx6nowwDO1lzGYBP6cYSK+ByCi1TDc7EVQRA8imVYgOnowmhF1f01gmADPosb8AP0IQiCIHgQt+AqTMFL0G7vvRSPI5ipOS1CcImKOAPBMs2vHd9EsA33Yi2CIAiCfvwYC/GX6MazFFXRhm8iWIEOu2pDJ6ZgNnrxAIIgCILtWIGF6EE3DvfExuFnCK7XvN6KYLmKaMd6BJ2a23wEazHRTmPRhemYj6XYjCAIguARLMV8TEcX9lM0m3kI1uIoT944nILpWIAV6EMQBEGwAUsxF1NwPEapG43lCL6Bds2rHesQHKsirkVwueb1Fwg24RWe2Ah0YjJ60Iu1CIIgCPqwCr3oQTcmoKZoRDMRbMIrPXX74RW4AB/D/8EvEQRBEGzFnViJ4Ec4UPObj+AKFXESgjWoaT5noh/9eKun5nC8ATPwadyN7QiCIAjW4VZ8Hp/AKMVwOwP9GMDZBtc4dGMmFmAF+hHcj8fwfNXwWgQ/RU0F1LAawQmay/HYiOBig6MNnZiC2ejFvyMIgmC5Yji9FI8jmGF4jMYJuB9Bl7qx+Bhu15xqWI2gS0VcieDjmsd4/BzBdYbeEXgTvow+9GO8YjiMw88QXG/4fQjBPHUj8ACCF2lOH0IwT0W8CMF6tGt8++P7CJag3fD6HIKLFENtNJYj+AbaDb+JCDZgpLqPI7hSc5qIYANGqoi7EJymsbXiSwh+iLGG3xkIlimGUgu+iOBHGKtxfA/Bm9WdgOAXaNWcvofgLSpiJoLPamwfRbAOR2sM7ViPoFMxVOYgWIfnaSwfQHCjnf4vgpM1pw8gWKgijkQ/NqNDYzofwVacpLFci+ByxVCYhmAbTtZ4xqEPm9Gh7jIE12lO49CHzehQEUsQnKPxvBHbMYB3ajwnIViDmmIwvR7bMYApGtdtCM5V9zwEj2Afzek2BOeqiPMR3KyxTMQvEfRoTDWsRnCCYrAcg4cRXKaxnYdgsZ2WIThTczoPwWIVMRZb0I/xGsNhWIPgRtQ0risRfFwxGA7CSgSLUNPYxmAT+jFe3UUIPq85nI2X22kMtmIAx6uIzyO4yPDbB99G8C8YpbF1IliPdsXTaRS+heAO7Ks53ITgYnWHYDu24kCNbRK2YiOebaeNCHpUxJkIfmx41fAZBKtxiOZwF4Ju1fERrMMj+ATeg9dgjKFRw6cQrMGhmsfpCO60080Izte4JuBBBFfZ6X0IghNVxCj0I7gTZ2MiRhhaH0TwCI7VPGYw+odc+req4UwEQRAEQbAWvZiNKehEi6fXZQgexYs0l3asQ9Cp7hwESzSmA/FjBF9Bq7pJ2Ipgjor5CoIgCLZhBRZgJrpxiMFxDoLt+M+ayvojST/ZRMZobsfgYQS347/iAszFUmxEEARB8CiWYQGmowuj7Z2zMIA+nKY5XYNglrr9sREDeLbG0oZbEdyJ0epeiA0IrlBBNfw1bsQX8BMMIAiCILgPvbgCb8cL0GrvnYgtCN6jKWUJCTlH8zoIKxEsRM3uRmACutGDXqxCEARBEKxFL3owGZ2o+d26sAXBhZrXJARrUFN3A4KZGst8BGtxpLo/wL0IbkKLZ4j9cTymYC6W4jEEQRAEW7ECCzAdp+BgT2wCHkRwlaaV80nIzZrTKHwLwR3Y1545AF2YjvlYik0IgiAIHsFSzMd0dGE/TMI6BHM0txpWI+hS141ghcZxKYJNeIW6dtyOYBn2UxiHbvRgIVZgAEEQBMFa3IK5mIJOtKg7ED9G8BW0alrpIJtJPxmvudTwaQSrcainRxtehHfhw7gZDyAIgiAYwACCb6JV8/sQgnnq2vAQguMMvzPRj368VV0N/4Tg5xiv+J0OwCT8Ka7FHdiEIAiC4DF8G6sR3InRml4+R0Iu0lwuR/AojjP4xqIL07EAy9CPYB0OVw0TEaxHu7qrEcw2vI7H4wgutlMPgkfxYsUea8UEdKMHC7ECAwjuwyM4UiXkDBKyTPM4CwPow2mGz2iciBbV8n0Eb1b3GgQ/R4vhMR4/R/D3dno7BtCHbsXT6kC8AY8hmKgSMpI8TEI6Nb4ubEFwoWIwzEBwo7oaViGYZOjtj+8hWIJ2dSdgM4L3KQbNdQguUxm5loRcrrE9Bw8imKMYLOPQh83oUDcLwTWGViu+hOCHGKvu2XgAwTWKQXUygpWoqYScRELWkJrGNAb3IPgqWhWD6XYEU9W9EMEvMcrQ+TsE63C0ujG4G8HXMEIxqFpwH4JXq4S0kPtIyAkaTxsWI7gHHYrBNg3BLXb6LoLTDY3zEWzFSepG4GYEK9ChGBL/E8HHVEauJD8gb9R45iFYi6MUQ2EMNqEf49VdhJV4u8H3BmzHAN5lp6sR3I9nKYbMixE8iDaVkJeRF9tFnk+ea3jNRLAJr1QMpZsQvF9dm6ExEb9E0GOnixFsxqsUQ+4uBKeqhCwim8gEv5Y5ZJbhcwb6MYCzFUPtdAR3GjoHYSWChaipexP6MIA/UgyLP0fwGZWQRWQ5+bJfyxwyy/B4KR5HMEMxHNqxGcHf4UCDax98G8F3sK+6/4THEFyqGDZHoR8bsb+ml0XkT8g95Ey/kjlklqE3Dj9DcL1iOC1HEARrcQvmYgo60erp8TYM4Cc4RN3huA/BJxXD7hsI3qXpZRGZRl5Pfkb2J3PILPICcgo52OAbjeUIvoF2xXAag9vwIDYiCIIgeBz/ivl4L7owxt55Byaq2wf/huCbGKkYdhcg+Jqml0Vkml/JQvJhMofMIleQkJANZCmZS6aQ48lIT48WfBHBjzBW0WjGoRs9WIgVGEAQBEGwFr2YjSnoRIsnpwVfQLAKBysawlhsQR8O09SyiEzzKzmCrCO9ZBb5E7KUPEJCQkJCQraQ75LryX/j3pNwoD03B8E6PE/RLDrQhQswF0uxEUEQBMGjWIYFmI4ujLa7qxCsx/MVDeULCKZrallEpvm1XExCZtlFxpFuMpMsICtIPwkJCfd+G8Fa3IK5mILj0e63m4ZgG05WNLsRmIizMRtfxS8QBEEQ9ONe3ISrcQeCbXidouG8DcF3NKXU/Eo+Sd7l19JG/o38lSeUMeQ15D1kPvM+iccRBEEQbMIduBZ/ikn4G/RhAFMUVXYAujAd87EUmxAEQRBcpWhIo/AwghdoKhlNvk3ONjjGoRs9WIgV6EcQBEE/gusVz0RtOA7vxNfxY/wPRUP7ewR/o2mklXyJhPyAtBkaHXgt3odr8B08htvRoiiKpvCHCFaipilkDglZR56nKIpiD7TgZwhepeHlPBKyjZysKIpiL3wYwUc1tLyebCcDZIqiKIq99BIED6JNQ8ox5GEScrmiKIqn6G4Eb9JwchC5l4QsIi2KoiieoksRfFpDySjyLRJyB9lXURTF0+AoDGAjRmsMNb4zh4SsIYcqiqJ4Gn0TwTs1hsto6efrXyfHKoqieJr9MYKvGX5nYQB9OE1RFMUgGIs+BDOwr+HRhS0ILlQURTGI1iAIgrXoRQ8moxM1g+c5eADBRxRFUQyyQ7EM67ANQRAEwQbcjrk4Dy/DKE/dGNyN4KsYoSiKYgiNQCcmowe9uB9BEARBH1ahFz3oxgTUPDltuAXBPehQFEXRIMaiC9OxAMuwBUEQBMHDWIr5mI4u7GN38xDcj6MURVE0uJF4Kc7FHNyK9QiCIAi24258Gh/DVxBswisVRVE0sXE4BdOxAMuwFUEQBAM4U1EURQXtg5dhGv4FP8RfKIpiN/8PAN5e/MyK4EkAAAAldEVYdGRhdGU6Y3JlYXRlADIwMjMtMTItMjRUMTg6MjE6MjYrMDA6MDB1bfjmAAAAJXRFWHRkYXRlOm1vZGlmeQAyMDIzLTEyLTI0VDE4OjIxOjI2KzAwOjAwBDBAWgAAAhZ6VFh0TU9MIHJka2l0IDIwMjMuMDkuMwAAOI19lN1u2zAMhe/zFHoBC+KfSF42STEUQxNgy/YOu+/7Y6SM1Cog1I4Iy/psizyHOZU8fl1//vsonwdeT6dS2jc/dy9/qbV2ei95Uc6vP95u5fJ4OT/vXO5/bo/fBbEgxTNxfmVfHvf35x0o94JVnKxJgWq9u8QDtY3jeBLLpVBtbo0tllkYmRYcBcdVlHpLDoxFdcFxcFKbqgmUDSqiAa0+LAH2KkIMmCC7qvcF2APUKsgak61VElZZgTrAhpGJRcpNdJ2yjS0Ks6MGR6gdVqn4ngq3bhK1VG6Eq9JAKBPrgF3Rc4fdTH31RoAgY10AuiXJ4OvqQOqSyWKDSCLqIx1BlyiVWwKRrcJec0dpvEJTnQ0DcJcEAKNcy5xSno2qqkhcx0bMrfuKTH02jvJ0I8o9qxAorFDdUWQUh9wIdLGljcD2nWrXlrJjZZKQbIWmTlsPpyE5j6oarfPHtqOKvVNayKNUDVdkKrVZjVXwdAm4rfNH3EltnTmmtQOIyoJ8vV2/tOjetOf77Xo0LeY4ejNv0NGCnOPotDzl6KeYlH50DcfQozc4hh0tADH8cPr48uxoGAEm58IIODkURqDJiDACT36DEWTyFYzQJ//ACDrZBEawyQ0745PokAFnbSEDwqQhZECctMoSfr4Xx45tyiE1mhXJ+fMvOK5P/wG0GhX95ZArhQAAAB10RVh0cmRraXRQS0wgcmRraXQgMjAyMy4wOS4zAO++rd4Af2KaAAABEHpUWHRTTUlMRVMgcmRraXQgMjAyMy4wOS4zAAAYlSWQyW1EMQxDW8lxBvgRrIVaEOT070kR08YUH9rxSXiWSEr3zaf3/fPYxeP79/my1352P/nx8X58ttTKiMskVdHXF4kts0tFp7sIUsoy41oyNvw7yMx8rs8l0Y4VZCEV2b5ZwbWUzKUKUI56T+cQmdjMgEiptZxIpQbsZ0EDkLDflmITpClTLEmoZh9LHeWcUSHrGCaTDrtc1vTa4oGwOE0Yb+U6nUnbrxCU546kHSgOQVZVHzOz3sopgMcJFFM8Sgks/q0cUciNmD6Gwgu1hSGIGCdwq7SjG4uJjYdZbmf3yuLKLMKB/6tZGGYjTXRfz/cf9JJZGQXDPPUAAAAASUVORK5CYII=) 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관련 화합물
힐 시스템의 공식은 C20H31NO
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계산 몰 질량 (몰 중량)화합물의 몰 질량을 계산하려면 공식을 입력하고 '계산'을 클릭하세요. 화학식에서 당신은 다음과 같은 것들을 사용할 수 있습니다 :
- 어떤 화학 원소. 화학 기호의 첫 글자를 대문자로 하고 나머지 글자는 소문자를 사용합니다. Ca, Fe, Mg, Mn, S, O, H, C, N, Na, K, Cl, Al.
- 기능 그룹 :D, Ph, Me, Et, Bu, AcAc, For, Tos, Bz, TMS, tBu, Bzl, Bn, Dmg
- 괄호() 또는 대괄호 []입니다.
- 관용명
몰 질량 계산의 예 : NaCl, Ca(OH)2, K4[Fe(CN)6], CuSO4*5H2O, 질산, 과망간산 칼륨, 에탄올, 과당, 카페인, 물.
몰 질량 계산기는 또한 일반적인 화합물 이름, Hill 공식, 원소 구성, 질량 백분율 구성, 원자 백분율 구성을 표시하고 무게를 몰수로 또는 그 반대로 변환할 수 있습니다.
컴퓨팅 분자량 (분자량)
화합물의 분자량을 계산하려면 공식을 입력하고 각 원소 뒤에 동위원소 질량수를 대괄호 안에 지정하세요.
분자량 계산의 예 :
C[14]O[16]2,
S[34]O[16]2.
정의
- molecular_mass_def
- 몰질량은 (molar weight) 어떤 물질이 1몰 있을때의 질량을 이야기 하고 단위는 g/mol입니다.
- 두더지는 원자나 분자와 같은 매우 작은 물질을 대량으로 측정하기 위한 표준 과학 단위입니다. 1몰에는 정확히 6.022 ×10 23 입자(아보가드로 수)가 들어 있습니다.
몰 질량을 계산하는 단계
- 화합물 식별: 화합물의 화학식을 적습니다. 예를 들어, 물은 H 2 O입니다. 이는 수소 원자 2개와 산소 원자 1개를 포함한다는 의미입니다.
- 원자 질량 찾기: 화합물에 존재하는 각 원소의 원자 질량을 찾아보세요. 원자 질량은 일반적으로 주기율표에서 찾을 수 있으며 원자 질량 단위(amu)로 표시됩니다.
- 각 원소의 몰 질량을 계산합니다. 각 원소의 원자 질량에 화합물에 포함된 해당 원소의 원자 수를 곱합니다.
- 합산: 3단계의 결과를 더하여 화합물의 총 몰 질량을 구합니다.
예: 몰질량 계산
이산화탄소(CO 2 )의 몰질량을 계산해 보겠습니다.
- 탄소(C)의 원자 질량은 약 12.01 amu입니다.
- 산소(O)의 원자 질량은 약 16.00amu입니다.
- CO 2 에는 탄소 원자 1개와 산소 원자 2개가 있습니다.
- 이산화탄소의 몰 질량은 12.01 + (2 × 16.00) = 44.01 g/mol입니다.
각 원소와 동위원소의 질량을 NIST기사를 참조하십시오 href='http://physics.nist.gov/cgi-bin/Compositions/stand_alone.pl'> a> 관련 : 아미노산의 분자량 |