몰 질량 of Yoda1 (C13H8Cl2N4S2) is 355.2654 g/mol
C13H8Cl2N4S2 중량과 몰 사이의 변환
다음 물질의 원소 조성 C13H8Cl2N4S2
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
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탄소 | C | 12.0107 | 13 | 43.9500 | 수소 | H | 1.00794 | 8 | 2.2697 | 염소 | Cl | 35.453 | 2 | 19.9586 | 질소 | N | 14.0067 | 4 | 15.7704 | 황 | S | 32.065 | 2 | 18.0513 |
몰질량을 단계별로 계산하기 |
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먼저 C13H8Cl2N4S2에 있는 각 원자의 수를 계산합니다.
C: 13, H: 8, Cl: 2, N: 4, S: 2
그런 다음 주기율표 의 각 원소에 대한 원자량을 검색합니다.
C: 12.0107, H: 1.00794, Cl: 35.453, N: 14.0067, S: 32.065
이제 원자 수와 원자량의 곱의 합을 계산합니다.
몰 질량 (C13H8Cl2N4S2) = ∑ Counti * Weighti =
Count(C) * Weight(C) + Count(H) * Weight(H) + Count(Cl) * Weight(Cl) + Count(N) * Weight(N) + Count(S) * Weight(S) =
13 * 12.0107 + 8 * 1.00794 + 2 * 35.453 + 4 * 14.0067 + 2 * 32.065 =
355.2654 g/mol
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화학 구조 |
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![C13H8Cl2N4S2 - 화학 구조](data:images/png;base64,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) 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관련 화합물
힐 시스템의 공식은 C13H8Cl2N4S2
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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 |