몰 질량 of 2,4-Dinitrophenylhydrazine (C6H6N4O4) is 198.1362 g/mol
C6H6N4O4 중량과 몰 사이의 변환
다음 물질의 원소 조성 C6H6N4O4
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
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탄소 | C | 12.0107 | 6 | 36.3710 | 수소 | H | 1.00794 | 6 | 3.0523 | 질소 | N | 14.0067 | 4 | 28.2769 | 산소 | O | 15.9994 | 4 | 32.2998 |
몰질량을 단계별로 계산하기 |
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먼저 C6H6N4O4에 있는 각 원자의 수를 계산합니다.
C: 6, H: 6, N: 4, O: 4
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 (C6H6N4O4) = ∑ Counti * Weighti =
Count(C) * Weight(C) + Count(H) * Weight(H) + Count(N) * Weight(N) + Count(O) * Weight(O) =
6 * 12.0107 + 6 * 1.00794 + 4 * 14.0067 + 4 * 15.9994 =
198.1362 g/mol
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화학 구조 |
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![C6H6N4O4 - 화학 구조](data:images/png;base64,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) 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모습 |
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2,4-디니트로페닐히드라진은 빨간색에서 주황색 고체로 충격과 마찰에 상대적으로 민감하며 일반적으로 습식 분말로 취급됩니다. |
관련 화합물
힐 시스템의 공식은 C6H6N4O4
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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 |