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This comprehensive high school physics reference poster presents all four kinematic equations (v = v₀ + at; Δx = v₀t + ½at²; v² = v₀² + 2aΔx; Δx = ½(v + v₀)t) alongside a complete guide to reading and interpreting position-time, velocity-time, and acceleration-time graphs. A decision flowchart at the bottom helps students identify which equation to use based on the missing variable. Perfect for: • High school physics and AP Physics kinematics units • Motion graphs and equations of motion instr

This colorful motion poster explains the difference between speed (scalar), velocity (vector), and acceleration (change in velocity), complete with formulas, distance-time graphs, and example calculations. Students see how each concept is graphed on distance-time plots and learn to calculate speed (d/t) and acceleration (Δv/t) with worked example problems. The memorable tagline — "Speed is HOW FAST, Velocity includes WHERE, Acceleration is the CHANGE!" — helps students keep the three concepts st

This clear, side-by-side comparison poster explains balanced and unbalanced forces with six illustrated examples: book on a table, pushing a shopping cart, tug-of-war tie, braking car, constant-speed vehicle, and turning bike. Each scenario shows the forces involved, net force calculation, and resulting motion. Students learn that balanced forces produce no change in motion (Fnet = 0) while unbalanced forces cause acceleration (Fnet ≠ 0). Perfect for: • Middle school and intro high s