Category: Laboratory Calculations

Glycine [C2H5NO2] Molecular Weight Calculation

The molecular weight of Glycine [C2H5NO2] is 75.06694. Glycine (C2H5NO2) is an organic compound of four elements: Carbon, Hydrogen, Nitrogen,…

Sarcosine [CH3N(H)CH2CO2H] Molecular Weight Calculation

The molecular weight of Sarcosine [CH3N(H)CH2CO2H] is 89.09364. Sarcosine (CH3N(H)CH2CO2H) is an organic compound of four elements: Carbon, Hydrogen, Nitrogen,…

Alanine [C3H7NO2] Molecular Weight Calculation

The molecular weight of Alanine [C3H7NO2] is 89.09364. Alanine (C3H7NO2) is an organic compound of four elements: Carbon, Hydrogen, Nitrogen, and…

Adenosine monophosphate (C10H14N5O7P) Molecular Weight Calculation

Adenosine Monophosphate (AMP) [C10H14N5O7P] Molecular Weight Calculation

Adenosine monophosphate (C10H14N5O7P) is an organic compound of five elements: Carbon, Hydrogen, Nitrogen, Oxygen, and Phosphorus. The molecular weight of Adenosine monophosphate is 347.222261998 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of all its elements.

Potassium Azide [KN3] Molecular Weight Calculation

Potassium Azide [KN3] Molecular Weight Calculation

Potassium azide (NaN3) is an inorganic compound of two elements: Potassium and Nitrogen. The molecular weight of Potassium azide is 81.11852 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Potassium and Nitrogen.

Sodium Azide [NaN3] Molecular Weight Calculation

Sodium Azide [NaN3] Molecular Weight Calculation

Sodium azide (NaN3) is an inorganic compound of two elements: Sodium and Nitrogen. The molecular weight of Sodium azide is 65.00998928 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Sodium and Nitrogen.

Aluminum Potassium Dioxide [AlKO2] Molecular Weight Calculation

The molecular weight of Aluminum Potassium Dioxide [AlKO2] is 98.0786384. Aluminum Potassium Dioxide (AlKO2) is an inorganic compound of three…

Aluminum-potassium-sulfate-anhydrous-molecular-weight-calculation

Aluminum Potassium Sulfate, Anhydrous [AlK(SO4)2] Molecular Weight Calculation

The molecular weight of Aluminum potassium sulfate, anhydrous [AlK(SO4)2] is 258.2070384.
Aluminum potassium sulfate, anhydrous [AlK(SO4)2] is an inorganic compound of four elements: Aluminum, Potassium, Sulfur, and Oxygen. The molecular weight of Aluminum potassium sulfate (AlK(SO4)2) is 258.2070384 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of all its elements.

Potassium Adipate [K2C6H8O4] Molecular Weight Calculation

Potassium Adipate [K2C6H8O4] Molecular Weight Calculation

Potassium Adipate (K2C6H8O4) is an organic compound of four elements: Potassium, Carbon, Hydrogen,  and Oxygen. The molecular weight of Potassium Adipate is 222.3224 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Potassium, Carbon, Hydrogen, and Oxygen.

Potassium cyanate (KOCN) Molecular Weight Calculation

Potassium Cyanate [KOCN] Molecular Weight Calculation

Potassium cyanate (KOCN) is an organic compound of four elements: Potassium, Oxygen, Carbon, and Nitrogen. The molecular weight of Potassium cyanate (KOCN) is 81.11514 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Potassium, Oxygen, Carbon, and Nitrogen.

Aluminum potassium sulfate dodecahydrate [AlK(SO4)2.12H2O] Molecular Weight Calculation

Aluminum Potassium Sulfate Dodecahydrate [AlK(SO4)2.12H2O] Molecular Weight Calculation

Aluminum potassium sulfate dodecahydrate [AlK(SO4)2.12H2O] is an inorganic compound of four elements: Aluminum, Potassium, Sulfur, and Oxygen. The molecular weight of Aluminum potassium sulfate dodecahydrate (AlK(SO4)2.12H2O) is 474.3918384 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Potassium, Sulfur and Oxygen and 12 molecules of water.

Isosaccharinic acid (C6H12O6) Molecular Weight Calculation

Isosaccharinic acid (C6H12O6) Molecular Weight Calculation

Isosaccharinic acid (C6H12O6) is an organic compound of three elements: Carbon, Hydrogen, and Oxygen. The molecular weight of Isosaccharinic acid is 180.1566 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of all its elements.

Potassium Antimonyl Tartrate Trihydrate (C8H4K2O12Sb2.3H2O) Molecular Weight Calculation

Potassium Antimonyl Tartrate Trihydrate [C8H4K2O12Sb2.3H2O] Molecular Weight Calculation

Potassium antimonyl tartrate (C8H4K2O12Sb2) is an organic compound of five elements: Carbon, Hydrogen, Potassium, Oxygen and Sulfur, and Antimony. Trihydrate form (C8H4K2O12Sb2) also contains three molecules of water. The molecular weight of Potassium antimonyl tartrate trihydrate is 667.8732 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Carbon, Hydrogen, Potassium, Oxygen and Sulfur, Antimony and three molecules of water.

Acesulfame potassium (C4H4KNO4S) Molecular Weight Calculation

Acesulfame Potassium [C4H4KNO4S] Molecular Weight Calculation

Acesulfame potassium (C4H4KNO4S) is an organic compound of six elements: Carbon, Hydrogen, Potassium, Nitrogen, Oxygen and Sulfur. The molecular weight of Acesulfame potassium (C4H4KNO4S) is 201.24344 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Carbon, Hydrogen, Potassium, Nitrogen, Oxygen and Sulfur.

15-Crown-5 [C10H20O5] Molecular Weight Calculation

15-Crown-5 [C10H20O5] Molecular Weight Calculation

15-Crown-5 [C10H20O5] is an organic compound of three elements: Carbon, Hydrogen, and Oxygen. The molecular weight of 15-Crown-5 [C10H20O5] is 220.264 which can be calculated by adding up the total weight (atomic weight multiplied by their number) of Carbon, Hydrogen, Nitrogen and Oxygen.