Lesson Plans [101–200 of 3917 Lesson Plans]
- Resonance of Strings
- Distance–Time Graphs
- Minkowski Diagrams for Galilean Relativity
- Converting between the Celsius and Fahrenheit Temperature Scales
- Units of Astronomy: The Astronomical Unit (AU)
- Variable Resistors in Voltage Divider Circuits
- States of Matter
- Measuring Density
- Arcminutes and Arcseconds
- Internal Energy
- Capacitor Charging and Discharging
- Parallel-Plate Capacitors
- Transverse Waves on Strings
- Dividing Decimals: Decimal Quotients
- Cauchy–Euler Differential Equation
- Trial and Improvement
- Multiplying and Dividing Decimals by Powers of Ten
- Critical Points and Local Extrema of a Function
- Linear Transformation Composition
- Partial Derivatives and the Fundamental Theorem of Calculus
- Solving First-Order Differential Equations by Substitution
- Surface Area of a Solid of Revolution
- Extrema of a Multivariable Function
- Confidence Intervals for Population Means
- The Extreme Value Theorem and Rolle’s Theorem
- Comparing Proper Fractions
- Phase Difference of Traveling Waves
- Nuclear Fission
- Modeling One-Dimensional Waves
- Money (1 SR, 5 SR, 10 SR, and 50 SR)
- Addition of Numbers up to 100,000
- Two-Way Frequency Tables
- Time Series Graphs
- Grouped Frequency Tables and Frequency Polygons
- Multiplying by 10, 100, and 1,000
- Derivatives of Inverse Hyperbolic Functions
- Multiplying and Dividing by 10, 100, and 1,000
- Adding to Subtract Numbers on a Number Line up to 1,000
- Multiplying and Dividing Integers
- Converting Fractions to Recurring Decimals
- Combining Like Terms
- Writing and Evaluating Algebraic Expressions
- Heat Pumps
- Multiplying Mixed Numbers: Area Models
- Converting and Comparing Capacity: Metric Units
- Adding Tens on a Number Line
- Simplifying Fractions: Division with Models
- Am and pm
- Recognizing Money: SR
- Multiplication as Scaling with Fractions
- Time to the Nearest Minute: am and pm
- Electric Field Equipotential Lines
- Equivalent Amounts of Money: SR
- Multiplying with Powers of Ten
- Multiplying Nonunit Fractions by Whole Numbers
- Money (SR 100)
- Coulomb’s Law
- Propagating Electric and Magnetic Fields
- Modelling Percentage Change
- Rounding Multidigit Numbers with Decimals to Any Place Value
- Line Graphs
- Line Graphs
- Dividing Decimals by Powers of Ten
- Multiplying Decimals by Powers of Ten
- Integration by Trigonometric Substitutions
- Ratios
- Directional Derivatives and Gradient
- Formal Definition of a Limit
- The Angle Sum of a Triangle
- Square Roots
- Direct Proportion
- The Sum of Angles in Quadrilaterals
- Midpoint on the Coordinate Plane
- X-rays in Medicine
- Converting Capacity: Liters and Milliliters
- Reduced Row Echelon Form
- Modeling Two-Step Addition and Subtraction Problems
- Evaluating Expressions: Whole Numbers
- Order of Operations: Exponents
- Multiplying Decimals
- Stem-and-Leaf Plots
- Subtracting Hundreds
- Mean, Median, and Mode
- Counting by Tens up to 120
- Subtracting Tens from Three-Digit Numbers
- The Mode of a Data Set
- Comparing: Faster, Slower, Earlier, and Later
- Range of a Data Set
- The Median of a Data Set
- Pie Charts
- Converting between Imperial and Metric Units of Mass
- Counting to 120 in Tens and Ones
- Two-Step Input–Output Patterns
- Formal Definition of Infinite Limits and Limits at Infinity
- Volumes of Rectangular Prisms and Cubes
- Linear Independence
- Counting With Repetition Where Order Does Not Matter
- Bernoulli’s Differential Equation
- Surface Areas of Rectangular Prism and Cubes
- Orthogonal Matrices