Created on: May 1, 2008

Website Address: https://library.curriki.org/oer/MIT--Chemistry-Laboratory-Techniques--A-Heart-as-Strong-as-Iron-22486

TABLE OF CONTENTS

- MIT - Chemistry Laboratory Techniques
- MIT OpenCoruseWare - AP Physics - Kinematics
- MIT OpenCourseWare - AP Biology - Cells
- MIT OpenCourseWare - AP Biology - Heredity
- MIT OpenCourseWare - AP Biology - Ecology
- MIT OpenCourseWare - AP Physics - Electrostatics
- MIT OpenCourseWare - AP Physics - Electromagnetism
- MIT OpenCourseWare - AP Physics - Waves
- MIT OpenCourseWare - AP Biology - Chemistry of Life
- MIT OpenCourseWare - AP Physics - Kinetic Theory/Thermodynamics
- MIT OpenCourseWare - AP Physics - Geometric Optics
- MIT OpenCourseWare - AP Calculus - Analysis of Graphs
- MIT OpenCourseWare - AP Biology - Cellular Energetics
- MIT OpenCourseWare - AP Biology - Molecular Genetics
- MIT OpenCourseWare - AP Biology - Evolutionary Biology
- MIT OpenCourseWare - AP Biology - Diversity of Organisms
- MIT OpenCourseWare - AP Calculus - Limits of Functions
- MIT OpenCourseWare - AP Calculus - Second Derivatives
- MIT OpenCourseWare - AP Calculus - Applications of Derivatives
- MIT OpenCourseWare - AP Calculus - Computation of Derivatives
- MIT OpenCourseWare - AP Calculus - Applications of Integrals
- MIT OpenCourseWare - AP Calculus - Antidifferentiation Techniques
- MIT OpenCourseWare - AP Calculus - Applications of Antidifferentiation
- MIT OpenCourseWare - AP Calculus - Concept of Series
- MIT OpenCourseWare - AP Calculus - Series of Constants
- MIT OpenCourseWare - AP Calculus - Computation of Derivatives
- MIT OpenCourseWare - AP Physics - Work, Energy, Power
- MIT OpenCourseWare - AP Physics - Circular Motion & Rotation
- MIT OpenCourseWare - AP Physics - Oscillations & Gravitation
- MIT OpenCourseWare - AP Physics - Fluid Mechanics
- MIT OpenCourseWare - AP Physics - Temperature & Heat
- MIT OpenCourseWare - AP Physics - Conductors, Capacitors, Dielectrics
- MIT OpenCourseWare - AP Physics - Electric Circuits
- MIT OpenCourseWare - AP Physics - Magnetic Fields
- MIT OpenCourseWare - AP Physics - Physical Optics
- MIT OpenCourseWare - AP Physics - Atomic Physics & Quantum Effects
- MIT OpenCourse Ware - AP Calculus - Asymptotic & Unbounded Behavior
- MIT OpenCourseWare - AP Calculus - Continuity: Property of Functions
- MIT OpenCourseWare - AP Calculus - Parametric, Polar & Vector Functions
- MIT OpenCourseWare - AP Calculus - Parametric, Polar & Vector Functions
- MIT OpenCourseWare - AP Calculus - Concept of the Derivative
- MIT OpenCourseWare - AP Calculus - Derivative at a Point
- MIT OpenCourseWare - AP Calculus - Derivative as a Function
- MIT OpenCourseWare - AP Calculus - Fundamental Theorem of Calculus
- MIT OpenCourseWare - AP Physics - Newton's Laws of Motion
- MIT OpenCourseWare - AP Biology - Structure & Function of Plants & Animals
- MIT OpenCourseWare - AP Calculus - Interpretations & Properties of Definite Integrals
- MIT OpenCourseWare - AP Calculus - Numerical Approximations to Definite Integrals
- MIT OpenCourseWare - AP Physics - Systems of Particles, Linear Momentum

- MIT OpenCourseWare - AP Physics - Electrostatics - Charge & Coulomb's Law
- MIT OpenCourseWare - AP Physics - Electrostatics - Electric Field & Electric Potential
- MIT OpenCourseWare - AP Physics - Electrostatics - Gauss's Law
- MIT OpenCourseWare - AP Physics - Electrostatics - Fields & Charge Distributions

- MIT OpenCourseWare - AP Physics - Kinetic Theory/Thermodynamics - Ideal Gases
- MIT OpenCourseWare - AP Physics - Kinetic Theory/Thermodynamics - Laws of Thermodynamics

- MIT - Chemistry Laboratory Techniques - Ethyl Ester's Excellent Adventure
- MIT - Chemistry Laboratory Techniques - Into Thin Air
- MIT - Chemistry Laboratory Techniques - How do you Recrystallize a Mothball?
- MIT - Chemistry Laboratory Techniques - The Single-Crystal Shakedown
- MIT - Chemistry Laboratory Techniques - How did the Peach get into the Banana?
- MIT - Chemistry Laboratory Techniques - What's with those High Altitude Recipes?
- MIT - Chemistry Laboratory Techniques - Looks Can Be Deceiving
- MIT - Chemistry Laboratory Techniques - Setting the Pace
- MIT - Chemistry Laboratory Techniques - What's in a Cow's Heart Anyway?
- MIT - Chemistry Laboratory Techniques - A Heart as Strong as Iron

From the CC-level experiment, students know the concentration of protein in their samples. Now they will determine the concentration of iron in bovine heart cytochrome c.

To download the materials for this lab, click here.

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