Breadcrumbs

03 Motion & Forces

Topic SLS Module H1 H2 H3
01. Quantities and Measurement Uncertainty ✔️ ✔️  
  Physical Quantities and SI units ✔️ ✔️  
  Homogeneous Equations and the Scale of Universe ✔️ ✔️  
  2-D Vector Addition by resolving into perpendicular components ✔️ ✔️  
02. Forces and moments Forces ✔️ ✔️  
  Turning Effects of Forces ✔️ ✔️  
  Equilibrium of Extended Bodies ✔️ ✔️  
03. Motion and Forces Relating Conservation of Momentum to Newton’s Third Law of Motion ✔️ ✔️  
  The Multiple Meanings of Mass ✔️ ✔️  
  Force and Momentum ✔️ ✔️  
  Kinematics: Representing Motion in Space and Time ✔️ ✔️  
  Kinematics - Graphs of Motion ✔️ ✔️  
Newton's First Law Drone Hover Challenge simulation

Newton's First Law Drone Hover Challenge is an HTML5 JavaScript physics lesson where students control a drone's thrust, compare thrust and weight, and decide whether the resultant force is zero or unbalanced.

The activity helps learners move beyond the common misconception that an object needs a continuous forward or upward force to keep moving. By watching altitude, velocity and force evidence together, students see that balanced forces mean zero acceleration, not necessarily zero velocity.

Elevator phone accelerometer simulation with a person standing on a weighing scale

Interactive elevator phone accelerometer simulation for Newtonian mechanics: this browser-based model lets students use a phone accelerometer or a manual acceleration control to investigate normal force, weight, apparent weight and weighing-scale readings in a lift.

The activity goes beyond a static worksheet: learners observe live force arrows, calculate the scale reading, answer auto-marked questions, receive targeted hints, and generate xAPI/SLS-friendly learning evidence for teachers.