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Alligation: Pharmacy, Mixing

Alligation medial: C_final = Σ(C_i×V_i)/ΣV_i. Alligation alternate: parts of each = |target − C_other|. Used in pharmacy compounding, IV prep, and concentration blending.

Concept Fundamentals
C_final
Parts
Σ(C×V)/ΣV
Medial
|target − C|
Alternate
Calculate AlligationPharmacy | Mixing | IV solutions

Why This Chemistry Calculation Matters

Why: Alligation determines mixing proportions for target concentration. Essential for pharmacy, IV preparation, and formulation.

How: Medial: enter concentrations and volumes. Alternate: enter two concentrations and target. Parts = |target − C_other|.

  • Medial: weighted average of concentrations.
  • Alternate: proportion for two-component mix.
  • Pharmacy and IV standard method.
Sources:USP CompoundingPharmacy Calculations

Sample Examples

💊 Pharmacy Compounding

Mix 10% and 50% solutions to make 25% solution

🩺 IV Solution Preparation

Prepare 0.9% saline from 5% and 0.45% solutions

🍷 Alcohol Dilution

Mix 40% and 10% alcohol to achieve 25%

⚗️ Three Solution Mix

Calculate final concentration from three solutions

🏭 Industrial Chemical Mixing

Blend acids of different concentrations

💉 Pharmaceutical Formulation

Prepare drug solution at specific concentration

⚖️ Weight-Based Mixing

Mix solutions by weight instead of volume

🧪 Lab Buffer Preparation

Prepare buffer from stock solutions

Alligation Calculator

Solutions

Solution 1

Solution 2

For educational and informational purposes only. Verify with a qualified professional.

🔬 Chemistry Facts

💊

Alligation medial: C_final = Σ(C_i×V_i)/ΣV_i.

— Pharmacy

Alternate: parts A = |target − C_B|; parts B = |target − C_A|.

— Mixing

🔬

Used for IV solutions, dilutions, compounding.

— Clinical

📐

Ratio of parts gives mixing proportion.

— Formulation

What is Alligation?

Alligation is a mathematical method used to calculate the proportions in which solutions of different concentrations must be mixed to obtain a desired concentration, or to determine the final concentration when mixing known quantities of solutions. It's widely used in pharmacy, chemistry, and industrial applications.

Two Main Methods

Alligation Medial

Calculates the final concentration when mixing known quantities of solutions with different concentrations.

Cfinal = Σ(Cᵢ × Vᵢ) / ΣVᵢ

Alligation Alternate

Determines the proportions needed to achieve a target concentration from two or more stock solutions.

Ratio = |Ctarget - C₂| : |Ctarget - C₁|

How Does Alligation Work?

Alligation methods use simple arithmetic to solve mixing problems. The key principle is conservation of mass - the total amount of solute before mixing equals the total amount after mixing.

🔬 Alligation Medial Derivation

Principle

Total solute = C₁V₁ + C₂V₂ + ... + CₙVₙ

Total volume = V₁ + V₂ + ... + Vₙ

Cfinal = Total solute / Total volume

Example

Mix 100 mL of 10% solution + 200 mL of 30% solution

Total solute = (10 × 100) + (30 × 200) = 1000 + 6000 = 7000

Total volume = 100 + 200 = 300 mL

Final concentration = 7000 / 300 = 23.33%

📊 Alligation Alternate Method

The Alligation Cross

C₁
|Ctarget - C₂|
Ctarget
C₂
|Ctarget - C₁|

Ratio = |Ctarget - C₂| : |Ctarget - C₁|

Example

Target: 25% from 10% and 50% solutions

Difference 1: |25 - 50| = 25 parts of 10%

Difference 2: |25 - 10| = 15 parts of 50%

Ratio: 25:15 = 5:3 (10%:50%)

For 100 mL total: 62.5 mL of 10% + 37.5 mL of 50%

When to Use Alligation

Alligation is essential for anyone working with solution preparation, especially in pharmacy, clinical settings, and chemical laboratories.

💊

Pharmacy Compounding

Prepare custom medication concentrations from stock solutions.

  • Dilute concentrated drugs
  • Mix different strengths
  • Prepare patient-specific doses
🩺

IV Solutions

Prepare intravenous solutions at specific concentrations for patient care.

  • Saline solutions
  • Medication infusions
  • Electrolyte solutions
🏭

Industrial Mixing

Blend chemicals, acids, or solutions for manufacturing processes.

  • Chemical production
  • Quality control
  • Batch preparation

Formulas and Key Points

Alligation Medial Formula

Cfinal = (C₁V₁ + C₂V₂ + ... + CₙVₙ) / (V₁ + V₂ + ... + Vₙ)

Where Cᵢ is concentration and Vᵢ is volume (or weight) of solution i.

Alligation Alternate Rule

Parts of C₁ = |Ctarget - C₂|
Parts of C₂ = |Ctarget - C₁|

The target concentration must lie between the two stock concentrations.

⚠️ Important Considerations

  • Volume vs. Weight: Use consistent units (volume or weight) throughout calculations
  • Concentration Units: Ensure all concentrations use the same units (% w/v, % w/w, M, mg/mL, etc.)
  • Temperature Effects: Volume mixing may not be perfectly additive due to density changes
  • Accuracy: For critical applications (pharmacy, medical), verify calculations and use precise measurements
  • Multiple Solutions: For 3+ solutions, alligation alternate becomes more complex and may require iterative methods

Practical Examples

Example 1: Pharmacy Compounding

Problem:

  • Need 25% solution
  • Have 10% and 50% stock solutions
  • Want 100 mL total

Solution:

Difference 1: |25 - 50| = 25 parts

Difference 2: |25 - 10| = 15 parts

Total parts: 40

10%: (25/40) × 100 = 62.5 mL

50%: (15/40) × 100 = 37.5 mL

Example 2: IV Saline Preparation

Problem:

  • Need 0.9% NaCl
  • Have 5% and 0.45% solutions
  • Want 500 mL

Solution:

Difference 1: |0.9 - 5| = 4.1 parts

Difference 2: |0.9 - 0.45| = 0.45 parts

Total parts: 4.55

5%: (0.45/4.55) × 500 = 49.5 mL

0.45%: (4.1/4.55) × 500 = 450.5 mL

Example 3: Alligation Medial

Problem:

  • Mix 200 mL of 15% solution
  • Mix 300 mL of 30% solution
  • Mix 500 mL of 45% solution

Solution:

Total solute = (15×200) + (30×300) + (45×500)

= 3000 + 9000 + 22500 = 34500

Total volume = 200 + 300 + 500 = 1000 mL

Final = 34500 / 1000 = 34.5%

📚 Official Data Sources

USP (U.S. Pharmacopeia) ↗
Compounding and concentration standards
Updated: 2025

⚠️ Disclaimer: Alligation results are for educational and compounding reference. For clinical or pharmaceutical use follow USP and institutional guidelines.

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