1.0 PHYSICAL QUANTITIES AND UNITS
1.3.3 DENSITY OF A RECTANGULAR BLOCK
2.0 KINEMATICS
2.1.7A REACTION TIME
2.1.7B ACCELERATION DOWN A SLOPE
2.1.8 DETERMINATION OF G BY FREE FALL
3.0 DYNAMICS
3.1.2A NEWTON’S SECOND LAW
3.1.2B DETERMINATION OF G USING TWO CONNECTED MASSES
4.0 FORCES, DENSITY AND PRESSURE
4.2.1 USING THE PRINCIPLE OF MOMENTS
4.2.3 COPLANAR FORCES IN EQUILIBRIUM
4.3.4 MEASURING THE DENSITY OF A LIQUID
5.0 WORK, ENERGY AND POWER
5.2.2 POTENTIAL ENERGY EQUATION
6.0 DEFORMATION OF SOLIDS
6.1.4 BEHAVIOUR OF SPRINGS
6.1.6 FINDING THE YOUNG MODULUS
7.0 WAVES
8.0 SUPERPOSITION
8.1.2 VELOCITY OF A STATIONARY WAVE
8.1.4 SPEED OF SOUND USING A RESONANCE TUBE
8.3.2 WAVELENGTH OF LIGHT USING A DOUBLE SLIT
8.4.1 WAVELENGTH OF LIGHT USING A DIFFRACTION GRATING
9.0 ELECTRICITY
9.3.2 RESISTANCE AND OHM’S LAW
9.3.3 I-V CHARACTERISTICS
9.3.6 RESISTIVITY
10.0 D.C. CIRCUITS
10.1.5 INTERNAL RESISTANCE
10.3.1 POTENTIAL DIVIDER
10.3.2 PRINCIPLE OF THE POTENTIOMETER
11.0 PARTICLE PHYSICS
APS ADVANCED PRACTICAL SKILLS
APS-1.1 USING MEASURING INSTRUMENTS
APS-2.3 EXPERIMENTALLY CALCULATING Π