몰 질량 of YAl3(BO3)4 (Nd:YAB) is 405.0873 g/mol
YAl3(BO3)4 중량과 몰 사이의 변환
다음 물질의 원소 조성 YAl3(BO3)4
요소 | 상징 | 원자량 | 원자 | 질량 비율 |
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이트륨 | Y | 88.90585 | 1 | 21.9473 | 알루미늄 | Al | 26.9815386 | 3 | 19.9820 | 붕소 | B | 10.811 | 4 | 10.6752 | 산소 | O | 15.9994 | 12 | 47.3954 |
몰질량을 단계별로 계산하기 |
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먼저 YAl3(BO3)4에 있는 각 원자의 수를 계산합니다.
Y: 1, Al: 3, B: 4, O: 12
그런 다음 주기율표 의 각 원소에 대한 원자량을 검색합니다.
Y: 88.90585, Al: 26.9815386, B: 10.811, O: 15.9994
이제 원자 수와 원자량의 곱의 합을 계산합니다.
몰 질량 (YAl3(BO3)4) = ∑ Counti * Weighti =
Count(Y) * Weight(Y) + Count(Al) * Weight(Al) + Count(B) * Weight(B) + Count(O) * Weight(O) =
1 * 88.90585 + 3 * 26.9815386 + 4 * 10.811 + 12 * 15.9994 =
405.0873 g/mol
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화학 구조 |
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![YAl3(BO3)4 - 화학 구조](data:images/png;base64,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) 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힐 시스템의 공식은 Al3B4O12Y
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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 |