몰 질량 of Zardaverine (C12H10F2N2O3) is 268.2162 g/mol
C12H10F2N2O3 중량과 몰 사이의 변환
다음 물질의 원소 조성 C12H10F2N2O3
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
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탄소 | C | 12.0107 | 12 | 53.7359 | 수소 | H | 1.00794 | 10 | 3.7579 | 플루오린(불소) | F | 18.9984032 | 2 | 14.1665 | 질소 | N | 14.0067 | 2 | 10.4443 | 산소 | O | 15.9994 | 3 | 17.8953 |
몰질량을 단계별로 계산하기 |
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먼저 C12H10F2N2O3에 있는 각 원자의 수를 계산합니다.
C: 12, H: 10, F: 2, N: 2, O: 3
그런 다음 주기율표 의 각 원소에 대한 원자량을 검색합니다.
C: 12.0107, H: 1.00794, F: 18.9984032, N: 14.0067, O: 15.9994
이제 원자 수와 원자량의 곱의 합을 계산합니다.
몰 질량 (C12H10F2N2O3) = ∑ Counti * Weighti =
Count(C) * Weight(C) + Count(H) * Weight(H) + Count(F) * Weight(F) + Count(N) * Weight(N) + Count(O) * Weight(O) =
12 * 12.0107 + 10 * 1.00794 + 2 * 18.9984032 + 2 * 14.0067 + 3 * 15.9994 =
268.2162 g/mol
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화학 구조 |
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![C12H10F2N2O3 - 화학 구조](data:images/png;base64,iVBORw0KGgoAAAANSUhEUgAAATwAAACOCAYAAACscLTMAAAABGdBTUEAALGPC/xhBQAAACBjSFJNAAB6JgAAgIQAAPoAAACA6AAAdTAAAOpgAAA6mAAAF3CculE8AAAAB3RJTUUH5wwYEg0RV3Q6SgAAAAZiS0dEAP8A/wD/oL2nkwAAF81JREFUGBntwQlg3XV9APDP/+Ulea9JmkSQS1BamIIFkR5Q8BgoCqhTbkHxGiqwIcpEEXWToRweXHIzUBhsIF4MFVGUbipH7TFOuawIKFehTXO9XC/f6aKkoQVRS5v3f7/PJ5ND2952W2dpYKDV0zQNDXXd8OpX90iSpC4V5FDj8PCXRguFB0cLhQdHC4UHRwuFB0cLhQcr5fJhkiSpW0X5dUNxZORNVtLb1jYgSZK6VZRTWUR1/ty53ZIkSf6gIEmSpE4U5VRk2ZxZCxfe4w+yiO6Fc+bMkSRJ3SrKr19Hlh1n3JAkSepaUU5lEUsXzZ59pSRJkj8oSJIkqRMFSZIkdaIgSZKkThTlzCtuvbWlsVI5qjA6WpQkSbKSBjky5+c/n1GIuGO0UBj++Y47XidJkmQlBTlSbWg4ER3YSJIkydMU5MTsBQt2yCL+Dr3FkZETJUmSPE1BTkSWnYwMp86fO/cxSZIkT1OQAzMXLdoDu+LJ4sjIKZIkSVajoNZFZFnECcacNH/u3G5JkiSrUVDjZi5efABm4uGmoaFzJEmSPIOCGrb/lVc2ZBHHGfOZm3beuSJJkuQZFNSwJVtscQi2wr1tPT0XS5IkeRaZGrXLvHmlnra2e7EZDlg0e/bXJUmSPIuCGtU9deqHsBkWLZo16xuSJEn+hKIaNGvhwnYRxxjzSVkWkiRJ/oSCGtR9ww0fQAfmLZo9+4eSJElyakP0lLfa6r4Zl1yygyRJkhw7E4FvSZIkybHNMYARzJAkSZJj/47AVyVJ8tdaX53J1I5tcCtGsDV+JUnyp4wSyiihjBLK6EQJZZRQRglllFBGCWV0ooQySiijhDJaMBWj+E+8SzLpXI3A6ZKk9myO69CNJbgXS7AMKxAIBAKBQCAQCAQCgUAgEAgEAoFAIBAIBAKBQOAgdSJTG3bAzejDlnhMktSW+7ClP20AFQygggFUMIDlqGAAFQygggFUMIAKBrAcFQygggFUMIAKVuBmzMFi7ICqZFK4HoF/lUxGLZiGTSSr83KMIvA5vBEvw3Sshw7rxhT8CoEPqwOZyW9PXIMnsAW6Jc9VGZ0ooYwSyiihjBLKKKGMTpRQRglllFBGCWWUUEYnSmhBkzGBK/AOycq+jb1wCd5rctkT16AHM/CQHMtmLVx4LD7pabKIcxfOmfNx61aGhZiJj+JUyR+9El/B1liBUZTQikZr1zCKyIzZB9+W/N4czEc/tsSj1owMHSiiDc2YgiloRhuK6EAD2tGI3+BiE30D++IavFmOFbOI5siynsiyfaxktFB4xLr3dszEb3GuZGXXYkNjSlZvAMtRwQAqGEAFA6hgABUMYDkqGEAFA6hgABUMoIIBLEcFfRgyZiFm4VhcjarkZGQ4DY8aV8aRaEUj2tGADhTRhia0oIwSWtGIdhT8ZX6Ei010BF6PN2EvXCWnisYMLp4162aTQycKeAGON+YzqEj+aFdsiMA/4gY8gQr6MWjd2BW/wBwcinPUt93xOizHqSYq4mR/neWoohtD6EMFA+jFMFZgFMtRxZ1W9Sg+jbNwDuZhhRwq+hNm3HlnU6FabSmOjJSL1WqpWii0ohHthdHRhsiyjiyiOFootGURJZTRgqaeG28cvPfIIzdCBxrQjka0ooQyWtCEqWgw0ZN4FJdIVvYvxnwJ55o8evBhfBMn4b/wW/Upw/HGnITlJurH59GHIfRgBF2oYgWG0YsBVNCHIXSjas06F+/ETjgeH5ZD2ewFC46LLPsYfmglbT09B3VPnbpzFvFjf6HBBx646Y59993Jn2cFqujBJsZsjzslv/dmfBdPYAt0++tNQTPaUEQHGtCORrSihDJa0ISpaMAvcaGJrsLb8A3srz4dgK/hYfwN+k1+22IRGvAq3CxnisYMZRG3WsnSDTYYbRocrGQRw+jFACrowxC6I8uqWcTyyLJqYXS0e7RQGMoi+iLLKlnEwPCyZY/jYqxAFV0YQQ8G0Y9+DKIXwyY6F4fhIuyMUfUtw2eNOQHdxnXiGDRjCqagGW0oogMNaEcjWlFC2V/n27jQRB/C67Af3oqr1ZcGHGfMcehXG27Hafg4zsdsDMuRbPaCBcdFlr1n0ezZ00w+U/ELvAiH4gL17R34DzyIl2LQuI3xsL9MBQPoxTBWoIoujKAHg+hHPwbRgxHcjmus6iM4DQ9iBnrVjw/gAtyHGRhWO6bgdkzH0ThFnsxesOC4WQsX3m/yOgCBLmyifjXiPgTeZ1VlHIOj8EG8C/tjT+yGOZiJ6XgJOtHi+VPATQh8Sf0o4UEEDlCbdkegD9PkyewFC46btXDh/Sa3qxH4T/XrcATuRlFteAWGMYKZ6sPRCNyCgtp1BQLXyJPZCxYcN2vhwvtNbi9GDwJvUX/KeAiBfdSWUxFYgAb51obHENhdbdsQyxDYT17sMH/+tO0XL97J5Hc0Ar9Gi/ryCQQWIFNbpuBXCBwp3z6LwE/kw6EIPIIOyVpVxGIETlY/OvAkAq9Xm/ZEoBubyqcXohuBneVDAT9D4GzJWjcHIxjGK9WHkxD4odr2DQS+K5++jMBV8mUGBlHFzpK17ssIzEeDfNsYfRjFjmrbxliOwF7y5SUYQBXbyZ8TELgNjZK1qg0PIfAP8u0cBL4uH45A4GG0y49LELhEPjXjbgSOkax1eyO2ZF6wiXyahkGMYGv5UMCNCJwhH2ZgBIOYLr92wSj6sYVk7TqPs4MIvi6f/gOBC+XLthhCFXPVvqsQOEP+XYbAtZK1K9gs6A4ieKt82RZVVPBi+fN5BG5Fo9q1A0bRiw3l3/pYisCBkrUr+EgQwQNBq/z4HgKnyKcpWILAR9WuHyNwvPpxCAKPolOy9gSF4KYggi/Jh1cj0IMN5NfuCPRhmtqzOwLL0Kl+ZPgxAudL1q7gFcFwMBLMVPv+G4F/kX9XIHCN2pJhIQJHqz8vRQWjeLVJImgOPh3cFQwEXcGPgt3kSXBqEMGCoEHtegsCSzFV/m2IZQjsp3a8HYHfYor69K8I3I1mz5MgCzqDFwbTg62DWcFrgt2CXf1OUAiuCR4PjgzmBnsEFwbV4B1+J5MDwRTcgWn4cMaX1Z4CFuGV+AjOUB8OxXl4FFujy+TWgDuwFT6AC9WnZvwvtsaZuASdaMBUNKEFZZTQika0o4BONJSYUmEKWlBGCa1oRDsKnt0vMmYE78Bl2DFjgZUE52M/vFheBHsGEXQHm6o970Tg12hWPwr4KQJnm/w+iMA9KKpvf4tRjCIQCAQCgUAgEAgEApExGowGEUQQQQQRRBDBsmBpsCS4K1gY/DS4LjjP7wTfCuZbjWDbIIK/y+RI8E3sg+9lvEXtaMRd2ALvw8XqywwsRhGvwY0mpxLuxWY4AF+XXIz3YAA3oIoVGEYvBlBBPwbRgxF0oYoVFYZL9GIAFfRhCN0ZVc9BcCduyXinpwlK6MfH5UmwcbA8iGAvteMfELgbRfXpBARuR6PJ6WMI3IKC5PfWxxAC51pHgnuCC61GUAgGg2PlTXBEEMHDQbvJr4zfILC3+tWMuxE4xuTTjicQeKNkZfMQuN46Evwk+L7VCDYJInhvUf6cg4MxE6/Fd0xuR+FFWICr1K9BHIbr8Rl8A0tMHh/DevgJfij5oyI2NmaRVRXRhmZMwRQ0ow1FdDzE6Kasj0a0ooQyWtCEqWhAJwpoRyNaUcLm+AmODF6QscxEr0Pgp5kcCl6OhozbTW4dWIIX4PW4XnIpDsYPsIc/Tysa0Y4GdKCINjRjCqagGW0oogMNaEcjWlFCGS1oQjs2Qit2ws3GNeD9uBzd6s9hOBcDeBBFtKMBHZ6Dfu4t81J/ualox524Gu/PGPQ7wVb4EW7IeHsmx4IM+2E/bIpu3IhzMp607p2MY/BD7C75vRfiLqyHH+ExNGEqGtCJBkxFE1pQRsnzawXasCMWGnc+PogzcaT6Usa92NQzq6IbQ+hDBQPoxTBWPMjjm9GAEfRgEP2oYAC9GMYKVNGFEfRgEA9nRLArLkcjFuEF2A7X4aCMFZmcCjJchr1wGW7DhtgfU7FLxn3WnY3xS5SxE+arP0fhMVyBUeMuxRuwoT9PH4bQjSqWo4puDKEPFQygF8NYgSq6MIIeDKIf/RhED47CYbgNszBizLZYhAa8GjepH8fgZNyOv0cvhtCNKpZby4IWvBHTMYj5GQvkXfCuIILXW0nQGtwa/Ld161wErlSfXoR+jOIVxrXgEQTOxsHYH3tgN8zG9piOzdCJsuffFCxB4CgTfR6BW9GoPnTgSQR2UyMyORVcj0LGLp4mOBCXY8uMJZ4maEQrSiijBU2YigZ0ouEqinvTjlaUUEYLmjAVDehEAe1oRCvKaEcztsHdxpXwEZyFXvl1Pj6Ir+FA4z6Nz+LnmIsweeyB76Mf2+B+Y8q4A9NxNE6RfyfiWPwPdpGsW8ETwalWI5gRRLB3cEiwJHgy6AoiiCCCCCKIIIIIIogg7uBnCAQCgUAgEAgEAoFAYAVG8EoTfQ2BU+XX32AII9jKuE4sQ2BXk9PXELjGRLsj0Idp8m0DdCMwVw0pyq9WPGn1njCmFc2YbqIqujGEPlQwgF4MYwWqXfwSt6IHg+hHPwbRgxGsQBVdGEEPBvEpHI4LsBOqxpyAvXEkLsNi+fNZNOIC3G3csejEtZhncvow3oA9sS++acwPcAUOxNl4k/z6DNrwLdwsWfeCR4IzrUawfRDBm4O2YHqwftBp7WnB/Qh8yESnILAADfJlO1RRwWbGbYI+jGKmye1wBB5Bh3EbYhkC+8unzTGIEbxcMjkEVweLg8zTBB8IqsFG1q03IdCNTY2bgl8h8GH5ci0CXzDRBQhcYfIr4GcInGWiQxF4BB3y5zIEviKZPII9gwjeaSXBhsH9wZUmh28h8E0T7YlALzaXD69BoAvrGfc3GMIItlIbtsEQqtjJuAJ+isDZ8mVbVDGIaZLJJTgxqAbfCz4XXBQ8HtwabGBy2BhdCLzNRF9H4Hvy4QYEPmWiryFwvtpyIgK3odG4GRhEFTvLjdKVCJwumZyCucEXgyuDi4L3Bk0mlw8h8CDajNsIyxHYW217GwKPo8247VBFBZupLWX8EoGPm+gEZt7Hg/9FNKp58Sq6utnrB9hAkvwVCrgRgdNM9I8IPIx2tamAWxA4wkTXIvAFtemNCBq7+OrmnrJ5idG7iCCOUfNiHhHEcZJkDXgFhlDFjsYVcAMCZ6hN70bgfjQb9xoEurCemvWW06ncR3zfBLELMUr0E1uoWfFmIoilxFRJsoZ8EYFbUDRuWwyhip3UliYsQeBdJroBgU+pabE+sZQI4u0miEuJIK5VkyIjFhNBHCVJ1qApWILAUSb6PAK3olHt+BACt6Ng3NsQeBxtal68nwjiUaLTU2J9YikRxEFqTryDCOI3RFmSrGF7INCHacaVsQSBj6oNLXgEgbcaV8AtCBwhFyIjrieCOM8EcQgRxKNEp5oRjcR9RBDvkyTPkysRuMZEuyPQh2kmv39GYD4y496DwP1olhvxMmKAqBKv8pTIiB8TQZyvZsThRBB3E0VJ8jzZCMsQ2NdElyNwjcmtE8sQ2NW4JixB4GC5E8cTQdxBNHlKvJSoEKPEria9KBMPEUHsI0meZ4cj8DA6jNsQyxDY3+T1RQSuMdGRCNyOgtyJZuIuIohPmiD+lQjibqLZpBafIIJYQGSS5HlWwM8QONNEhyLwCDpMPpugD6OYaVwrHkXg7+RW/C0xSgwQL/OUaCZ+QQTxaZNWdBBPEkG8XpKsJdtgCFXsZFwBP0XgHJPPBQhcbqJ/RmA+MrkWlxBBXE9knhK7EKNEhdjSpBQnEUFcJ0nWspMQuA2Nxr0MA6hiZ5PHSzGMEWxlXCeWIbCr3Iv1iMeJIN5pgjiPOJ4omXRiY6KPGCXmSpK1rIxfIvAxE30OgdvRaHK4EoHzTPQlBK5RN+J9RBBLifXVhHg3USW+IUnWkTci0IfpxjXjbgQ+Yd3bDlVUsKlxm6APo5ipbkRGXE8EcaaaEdsQ0yXJOvQfCFxrol0win5sYd36AQKfN9G/IXC5uhMvIy4mNjCpxH8T3yUaTRBHEZf6fzGDuJGYZhVxLHGeJHmerI+lCLzdRJci8APrzmsR6MJ6xr0UwxjGVupW/BPxHquI3Yh3WeuiiwjiYyaIU4iF/l/MJYKYYRVxEXGDJHkevR+BR9Fp3HpYisBB1o0bEfikia5E4Fx1LXqJUeJ1JogziJusddFF/JDoI6Z5SpxCLPT/Yi4RxAyriIuIG9SYgqSWXIR52BAnGfckjjHmNHRau16C6XgMZxg3C/thACdIHsDZRJPJ4Wu4DWeoE0VJLQkcjlvxAVyKG4z5Kt6N1+JtuNja8wC2xNboM+5EZDgDv5Gchk/j4/icNSLKKKEVjWhHAzpQRBuaMQVT0Et2oTGBI3EzsRfZVVbvYOJRE70co2pMUVJr7sEX8M84HzMxhMCh2ATzrH29WGDca/FGdOELkt/rwqdxOnE52RJPiWaciFaUUEYLmjAVDehEA6aiCS3+fL/ChZ6SLSD+DV8mrrN6r0GviTbDA2pMUVKLTsD+mIGjcaIx9+Aek8PJxnwByyR/dCHej7Oxh4n+yZ9vABX0YQjdqGI5qujGMHoxgMes6ljsjU9YvUPJ7jRBXISt1JiipBYN4jDMw7/gm7jH5HE8dsJSnCVZSTZKHI75xD6ekg0SR6MHg+hHPwbRgxF0oYoVGCbrtUZky4lP4Bx8V44VJbXqf3Ap3o3z8DqEv1wB7WhEK0ooowVNmIoGdKIBU9GEFpRRQitehc2MuQ49kqfJFhEX4Iu4zlOyU6w7F+MQ7IP/lVNFSS37J+yJXfDvuAOtaEQ7GtCBItrQjCmYgma0oYgOZNasJ3Co5Jl8CvviQNxlncuCOAyL5VhRUsuexHk4Agf76wS6MIIeDKIf/RhED0bQhSpWYBi9GEAFfdgWy3AW+iXPIFtOHIOvWjeOw0ITZHcQB6NszK/xETxiVZejU43JJLVuHnbBzzEPfRhCN6pYjiq6MYQ+VDCAXgxjBUYlz6P4Dr5Mdp2nRIaL0Et2pCRJntUeCDyBqZIkSXIqwyIEPipJkiTHDkTgtyhLkiTJqQbchcD7JUmS5NihCNyDoiRJkpwq4SEE9pMkSZJjH0dgITJJkiQ51Y4nEHiDJEmSHDsBgf+RJEmSYxugG4GdJEmS5FWR0xH4tiRJkrwKpj3Oo7sxDzMkSZLkVXBpEMFXJEmS5FWwTVANBoNpkiRJ8iq4OojgNEmSJHkV7BiMBj3BhpIkSfIqmBdEcJwkSZK8Ct4URLA0mCpJkiSPgixYHERwlCRJkrwKDgoi+E1QliRJkkdBMbg7iODvJUmS5FVwWBDBPUFRkiRJHgXl4KEggn0lSZLkVfCWoBosCDJJkiR5FmwbzJIkyRqXSdaJYEv8PbY25k58JeNXkiR5XhTUhp2xrVW14s1o99xMwe44BPvgBdaBYG/cgdfiF7gLu+HO4K2SJKlrN+FCq9oGgR38afvgCQzhDnShBwdZi4INgu7gbCsJsuCyoCtYT5Ika1xBfdgOl+P76MQ2eAGORbu160A041NWkhE4Fq04QJIka1xRffgI+vCP6DNmFGdZQ4IySmhFI9rRgA4U0YbvYHs8lNHlaTIeCn6LmZIkWeOK6sOrcR26PbMj0YJ2NKIVJZTRgiZMRQM6T+L2T/BaNKHFc7MZ2rDUM3sMUyVJssYV1Y734EATFTw3L8RvPLtjsZHnqMLD6DRuABX0YQjdqGI5qujGCLqxvWe2ERZLkmSNK6od38PnTLQFrvCnDWOKZ3c6OtCFEfRgEP3oxyB6MIKuOxhBN4Yzej1HwWIcHHRmLLeSYAO8CIskSVK3bsKFVrUNAjt4djfhxyaB4IVBd3CWlQRZ8G/BsqBDkiRrXFF9uBonYDvcah3KWBq8F5cH2+DHyPAGzMb+GV2SJFnjCvJlfZyPn+B0tBhzJu7Bd/A+bIvZOBZ7W8syvoVXYAF2wo64EdtkfFeSJHXtezjVqrbC49jemI/izSjiyzjWuPVxPh5HYAV+it0lSZLUuDNxhNVrlCRJkgNzcDNuQYskSZI6cDTOkCRJ8gcF+TITZWMewEaSJEn+oChftsR5eAQvxiGSJElyrkOSJMnT/B9spcvNg4yQ0wAAACV0RVh0ZGF0ZTpjcmVhdGUAMjAyMy0xMi0yNFQxODoxMzoxNyswMDowMMCCQo0AAAAldEVYdGRhdGU6bW9kaWZ5ADIwMjMtMTItMjRUMTg6MTM6MTcrMDA6MDCx3/oxAAAB5XpUWHRNT0wgcmRraXQgMjAyMy4wOS4zAAA4jX2US44bIAyG9zmFLxDkJ+DlJJlWVTWJ1Ka9w+x7f9UmzcBIqBAsIF8M9m9ygGw/Lt/f/8BH48vhAID/+bg7/BZEPLxBTuD0+vXbFc73l9Nz53z7db3/BHJghNE/sy/329tzh+AMRynVmcThyKWJVhHAgqPN3zLc8nty+UfW5t11Q0r6pKJOqJIzMRXjDalJcuHeXMNnAD3YviHt4dN6dAEqrOTbw2uC6aj2ODJAr012Z7cAsTRCtBEum7NvuD44xObW8wrsXmmXIA8wYkFHGxfrWGvbcIRwBYltc/P0SI4kdUdSkFoM1SsOUkx865PjcIvDG1p6SpdqO1BCxloaVrR0xKq976Kh1EaLEpLFqmhF3ypDNuJ2IgoNA8TKEeIGrFlBUlqvHi5DJJIe0u/QFOcYkXfpZpCBs9E2RR2+wLFGtrlH5FSwRdve05OU0ju1yCYXtR4SbMjX6+XTG3m8mtPtepmvJjvPpxELkFn/mmMWeXablRwLqLNeNUabVakx+iw+iqXPEtMYtJaSpiFaSkbTEC+lwWlIlhrQsaOL2JqGbFF1eKqLejRMW0SiYfoixmPHl6RrBPFxNI8L24woc71mNtfP/7KYH/4CHVz0vWc3BDIAAAAddEVYdHJka2l0UEtMIHJka2l0IDIwMjMuMDkuMwDvvq3eAH9imgAAAQV6VFh0U01JTEVTIHJka2l0IDIwMjMuMDkuMwAAGJUtkDtuBCEQRK/icEZiUHdD/zRytNLK2RzAckS+J9jDu2BWJPCo6ip4XIPHdj225/7cxxjbMeT1+/r5G9v3BSD74K/3drRqKdzLIdVbt1ZO7DjbjcwzEohrTyYgrk1706WS8NRyUKUAjAlb9bAbcgsIwHrVaGGFgUQFxOCQRcjdY/ki2K1I7RpkK1EDCxrpnLPDzLFQWSzNUZWqM5G2gjvRlMAs9KIknQiTzFGrVYjSZntOwstOdKL+IeheToXLEUy3AiarOC8ivUe0aepMPOO7ER6JqGS+AZnw7EOEP3HzOVkyjcv+/gcfUlF+Aw3o5QAAAABJRU5ErkJggg==) 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관련 화합물
힐 시스템의 공식은 C12H10F2N2O3
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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 |