몰 질량 of C17H25NO (PCHP) is 259.3865 g/mol
C17H25NO 중량과 몰 사이의 변환
다음 물질의 원소 조성 C17H25NO
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
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탄소 | C | 12.0107 | 17 | 78.7172 | 수소 | H | 1.00794 | 25 | 9.7147 | 질소 | N | 14.0067 | 1 | 5.3999 | 산소 | O | 15.9994 | 1 | 6.1682 |
몰질량을 단계별로 계산하기 |
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먼저 C17H25NO에 있는 각 원자의 수를 계산합니다.
C: 17, H: 25, N: 1, O: 1
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 (C17H25NO) = ∑ Counti * Weighti =
Count(C) * Weight(C) + Count(H) * Weight(H) + Count(N) * Weight(N) + Count(O) * Weight(O) =
17 * 12.0107 + 25 * 1.00794 + 1 * 14.0067 + 1 * 15.9994 =
259.3865 g/mol
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화학 구조 |
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![C17H25NO - 화학 구조](data:images/png;base64,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) 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관련 화합물
힐 시스템의 공식은 C17H25NO
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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 |