몰 질량 of C23H28O3 (RU-28362) is 352.4666 g/mol
C23H28O3 중량과 몰 사이의 변환
다음 물질의 원소 조성 C23H28O3
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
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탄소 | C | 12.0107 | 23 | 78.3751 | 수소 | H | 1.00794 | 28 | 8.0071 | 산소 | O | 15.9994 | 3 | 13.6178 |
몰질량을 단계별로 계산하기 |
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먼저 C23H28O3에 있는 각 원자의 수를 계산합니다.
C: 23, H: 28, O: 3
그런 다음 주기율표 의 각 원소에 대한 원자량을 검색합니다.
C: 12.0107, H: 1.00794, O: 15.9994
이제 원자 수와 원자량의 곱의 합을 계산합니다.
몰 질량 (C23H28O3) = ∑ Counti * Weighti =
Count(C) * Weight(C) + Count(H) * Weight(H) + Count(O) * Weight(O) =
23 * 12.0107 + 28 * 1.00794 + 3 * 15.9994 =
352.4666 g/mol
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화학 구조 |
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![C23H28O3 - 화학 구조](data:images/png;base64,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) 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관련 화합물
힐 시스템의 공식은 C23H28O3
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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 |