몰 질량 of C23H29N7O6 (CGS-21680) is 499.5197 g/mol
C23H29N7O6 중량과 몰 사이의 변환
다음 물질의 원소 조성 C23H29N7O6
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
---|
탄소 | C | 12.0107 | 23 | 55.3023 | 수소 | H | 1.00794 | 29 | 5.8517 | 질소 | N | 14.0067 | 7 | 19.6282 | 산소 | O | 15.9994 | 6 | 19.2177 |
몰질량을 단계별로 계산하기 |
---|
먼저 C23H29N7O6에 있는 각 원자의 수를 계산합니다.
C: 23, H: 29, N: 7, O: 6
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 (C23H29N7O6) = ∑ Counti * Weighti =
Count(C) * Weight(C) + Count(H) * Weight(H) + Count(N) * Weight(N) + Count(O) * Weight(O) =
23 * 12.0107 + 29 * 1.00794 + 7 * 14.0067 + 6 * 15.9994 =
499.5197 g/mol
|
화학 구조 |
---|
![C23H29N7O6 - 화학 구조](data:images/png;base64,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) |
관련 화합물
힐 시스템의 공식은 C23H29N7O6
|
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 |