摩尔浓度计算器

使用这个免费的摩尔浓度计算器来确定溶液中的溶质摩尔浓度、质量、体积或分子量。这个工具支持多种单位，并提供即时结果。

Molarity Calculator

Input Parameters

Molarity Information

What is Molarity?

Molarity is a way of expressing the concentration of a solution, defined as the number of moles of solute per liter of solution. It is one of the most commonly used units of concentration in chemistry.

In solution chemistry, molarity is essential for understanding the ratios of reagents in chemical reactions and calculating equilibrium constants. It provides a standardized way to describe the chemical properties of solutions, regardless of the specific identity of the solute.

The standard unit of molarity is moles per liter (mol/L), also abbreviated as M. For example, a 1M solution contains 1 mole of solute per liter of solution.

What is Molarity?

The standard unit of molarity is moles per liter (mol/L), also abbreviated as M. For example, a 1M solution contains 1 mole of solute per liter of solution.

How to Use the Molarity Calculator?

This calculator can be used for four different calculations:

Select the parameter you want to calculate (molarity, mass, volume, or molecular weight)
Enter the known parameter values
Select the appropriate units for each parameter
Click the "Calculate" button to get the result

Tip: For laboratory solution preparation, you typically need to calculate the mass of solute required for a specific molarity and volume.

Molarity Calculation Formulas

Molarity calculations involve the following formulas, which vary based on what parameter you need to calculate:

Calculate Molarity (M)

$$M = \rac{n}{V} = \rac{m}{MW \ imes V}$$

Where: M = Molarity (mol/L) n = Amount of substance (mol) V = Volume of solution (L) m = Mass of solute (g) MW = Molecular weight of solute (g/mol)

Calculate Mass (m)

$$m = n \ imes MW = M \ imes V \ imes MW$$

Where: m = Mass of solute (g) n = Amount of substance (mol) MW = Molecular weight of solute (g/mol) M = Molarity (mol/L) V = Volume of solution (L)

Calculate Volume (V)

$$V = \rac{n}{M} = \rac{m}{M \ imes MW}$$

Where: V = Volume of solution (L) n = Amount of substance (mol) M = Molarity (mol/L) m = Mass of solute (g) MW = Molecular weight of solute (g/mol)

Calculate Molecular Weight (MW)

$$MW = \rac{m}{n} = \rac{m}{M \ imes V}$$

Where: MW = Molecular weight of solute (g/mol) m = Mass of solute (g) n = Amount of substance (mol) M = Molarity (mol/L) V = Volume of solution (L)

Unit Conversion

When using the molarity calculator, you may need to perform the following unit conversions:

Mass unit conversions:

1 Kilograms (kg) = 1000 Grams (g)
1 Grams (g) = 1000 Milligrams (mg)
1 Kilograms (kg) = 2.20462 Pounds (lb)
1 Pounds (lb) = 16 Ounces (oz)

Volume unit conversions:

1 Liters (L) = 1000 Milliliters (mL)
1 Cubic Meters (m³) = 1000 Liters (L)
1 Gallons (gal) = 3.78541 Liters (L)

Molarity unit conversions:

1 Molar (M) = 1000 Millimolar (mM)

Molarity Applications

Molarity has widespread applications in scientific research, industrial production, and education:

Laboratory Research

In laboratories, accurate preparation of solutions with known molarity is crucial for conducting chemical experiments, analyses, and research. Molarity is used to prepare buffer solutions, standard solutions, and reactant solutions.

Pharmaceutical Industry

In drug development and production, precise molarity is essential for ensuring drug efficacy and safety. It is used to calculate appropriate drug dosages and formulation concentrations.

Education and Academic Research

Molarity is a fundamental concept in chemistry education and an important parameter in academic research. It helps students and researchers understand chemical reactions and solution properties.

Industrial Applications

From food processing to chemical production, industrial processes often require precise control of solution molarity to ensure product quality, reaction efficiency, and production consistency.

Examples of Common Solution Molarities

Compound	Formula	Molecular Weight	Common Concentration
Sodium Chloride	NaCl	58.44 g/mol	0.9% (0.154 M)
Glucose	C₆H₁₂O₆	180.16 g/mol	5% (0.278 M)
Hydrochloric Acid	HCl	36.46 g/mol	1 M
Sodium Hydroxide	NaOH	40.00 g/mol	0.1 M

Frequently Asked Questions

What is the difference between molarity and mole fraction?

Molarity is the number of moles of solute per liter of solution, while mole fraction is the ratio of moles of solute to the total moles of all components in the solution. Molarity has units (mol/L), while mole fraction is a unitless ratio.

How do I prepare 100 mL of 0.5 M NaCl solution in the laboratory?

Calculate the required mass of NaCl: m = M × V × MW = 0.5 mol/L × 0.1 L × 58.44 g/mol = 2.922 g. Dissolve 2.922 g of NaCl in a small amount of water, then dilute to a total volume of 100 mL.

Does temperature change affect the molarity of a solution?

Temperature changes affect the volume of a solution and thus slightly affect molarity. When a solution expands, the same amount of solute is distributed in a larger volume, resulting in a slightly lower molarity. For precise experiments, temperature effects should be considered.

Why use molarity instead of mass percentage concentration in chemical reactions?

Molarity directly reflects the number of solute molecules in a solution, and chemical reactions are based on molecular interactions. Using molarity makes it easier to determine the ratios of reactants and yields of products, regardless of the molecular weight of the substances.

How does dilution affect molarity?

When diluting a solution, the amount of solute remains constant while the volume increases. According to the formula M = n/V, when V increases, M decreases proportionally. This can be expressed by the formula M₁V₁ = M₂V₂, where subscript 1 refers to initial conditions and subscript 2 refers to conditions after dilution.

摩尔浓度计算器

Molarity Calculator

Input Parameters

Calculation Mode

Molarity Information

What is Molarity?

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