몰 질량 of C2H3Cl2FNO3P (C01-A035) is 209.9283 g/mol
C2H3Cl2FNO3P 중량과 몰 사이의 변환
다음 물질의 원소 조성 C2H3Cl2FNO3P
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
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탄소 | C | 12.0107 | 2 | 11.4427 | 수소 | H | 1.00794 | 3 | 1.4404 | 염소 | Cl | 35.453 | 2 | 33.7763 | 플루오린(불소) | F | 18.9984032 | 1 | 9.0499 | 질소 | N | 14.0067 | 1 | 6.6721 | 산소 | O | 15.9994 | 3 | 22.8641 | 인 | P | 30.973762 | 1 | 14.7544 |
몰질량을 단계별로 계산하기 |
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먼저 C2H3Cl2FNO3P에 있는 각 원자의 수를 계산합니다.
C: 2, H: 3, Cl: 2, F: 1, N: 1, O: 3, P: 1
그런 다음 주기율표 의 각 원소에 대한 원자량을 검색합니다.
C: 12.0107, H: 1.00794, Cl: 35.453, F: 18.9984032, N: 14.0067, O: 15.9994, P: 30.973762
이제 원자 수와 원자량의 곱의 합을 계산합니다.
몰 질량 (C2H3Cl2FNO3P) = ∑ Counti * Weighti =
Count(C) * Weight(C) + Count(H) * Weight(H) + Count(Cl) * Weight(Cl) + Count(F) * Weight(F) + Count(N) * Weight(N) + Count(O) * Weight(O) + Count(P) * Weight(P) =
2 * 12.0107 + 3 * 1.00794 + 2 * 35.453 + 1 * 18.9984032 + 1 * 14.0067 + 3 * 15.9994 + 1 * 30.973762 =
209.9283 g/mol
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화학 구조 |
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![C2H3Cl2FNO3P - 화학 구조](data:images/png;base64,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) 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관련 화합물
힐 시스템의 공식은 C2H3Cl2FNO3P
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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 |