A hands-on probability project where students design, build, and test carnival games. They will calculate theoretical probability, collect experimental data, and analyze the results to understand statistical likelihood.

A lesson focused on mastering addition and subtraction of fractions with unlike denominators using the cross-multiplication (butterfly) method. Students use structured graphic organizers to visualize each step of the process.

Advanced applications of central tendency and spread, including algebraic problem-solving, weighted means, and the mathematical impact of outliers for high school students.

A comprehensive assessment covering Level 1, Level 2, and Level 3 data analysis, designed to evaluate mastery of mean, median, mode, and range in both numerical and narrative contexts.

In this hands-on geometry exploration, students venture outside to measure the angles of shadows cast by playground equipment and trees at different times of day. They apply their protractor skills to record data and analyze how the sun's position changes angle measurements.

Students interpret and solve word problems involving mean, median, mode, and range, focusing on extracting data from narrative contexts and real-world scenarios.

A foundational lesson designed for SIFE students to understand fractions greater than one using visual models and fraction strips. Focuses on bridging concrete models to number lines with minimal text reliance.

A foundational lesson on equivalent fractions using area models and number lines, styled as architectural blueprints to emphasize precision and measurement.

A collection of extra practice cases for mean, median, mode, and range, ranging from single-digit warmups to double-digit challenges, themed as unsolved detective files.

Students apply their knowledge of mean, median, mode, and range to data sets featuring two-digit numbers, focusing on multi-digit addition and division.

Students learn to calculate mean, median, mode, and range using single-digit data sets through structured, step-by-step guided practice and visual aids.

A comprehensive lesson on writing numerical expressions and analyzing mathematical patterns through the lens of digital logic and circuit design. Students will master parentheses in expressions and explore relationships between numerical patterns on a coordinate plane.