This area of study includes:
• inertial mass, momentum, including change of momentum (conservation of momentum and impulse are not
required), force, resultant force, weight, action and reaction
• equations of motion using absolute units (Equations of motion should be described from a diagram, showing
all the forces acting on the body, and then writing down the equation of motion. Extensions could include cases
involving a system of two or more connected particles. Examples are to be restricted to rectilinear motion,
including motion on an inclined plane.)
• motion of a body, regarded as a particle under the action of concurrent coplanar forces (the case of equilibrium
should be regarded as an application, where net force is zero).
• inertial mass, momentum, including change of momentum (conservation of momentum and impulse are not
required), force, resultant force, weight, action and reaction
• equations of motion using absolute units (Equations of motion should be described from a diagram, showing
all the forces acting on the body, and then writing down the equation of motion. Extensions could include cases
involving a system of two or more connected particles. Examples are to be restricted to rectilinear motion,
including motion on an inclined plane.)
• motion of a body, regarded as a particle under the action of concurrent coplanar forces (the case of equilibrium
should be regarded as an application, where net force is zero).