09 Oscillations

24 November 2015 
NRF2015EDU001EL021 ModellingInquiry Enabled Interactive Textbook

12 July 2016 
Tracker mass Oscillating on thin rubber

04 April 2017 
gear and rod model

04 April 2017 
Tracker Modeling in Pendulum as SHM : Model is fx = w*w*x where w = 3.724 with x0 = 4.60E2 and vx = 0

04 April 2017 
Tracker Modeling in Pendulum as SHM single swing: Model is fx = w*w*x where w = 3.136 with x0 = 1.90E2 and vx = 0.14

04 April 2017 
Pendulum Swing Model

04 April 2017 
Tracker Modeling in 2 Pendulum swinging in phase

04 April 2017 
Tracker Modeling in 2 Pendulum swinging in antiphase

04 April 2017 
Tracker Modeling in 2 Pendulum swinging in out of phase

04 April 2017 
Tracker Modeling in Light Damping in Pendulum

04 April 2017 
pendulum model (311_27_srimagima_ptvid_50cm_3lookang)

04 April 2017 
Pendulum Collision Mode

04 April 2017 
Tracker Pendulum Collision Model

04 April 2017 
Tracker Modeling in Spring Mass System

04 April 2017 
Tracker SHM 300g Tension Weight Model

17 May 2017 
Tracker SHM 350g Initial Extension Tension Weight Model

17 May 2017 
Mass and Spring with Accelerometer JavaScript HTML5 Applet Simulation Model by Wolfgang Christian

23 May 2017 
Pendulum 3D JavaScript HTML5 Applet Simulation Model

25 May 2017 
Newton Cradle (3D) JavaScript HTML5 Applet Simulation Model

25 May 2017 
10 Pendulum JavaScript Model Simulation Applet HTML5

25 May 2017 
10.1.3 Horizontal Spring Mass Model X vs t JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2 Definition of Simple Harmonic Motion and Horizontal Spring Mass Model A vs X JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.3 Horizontal Spring Mass Model Velocity versus Position JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.4 Horizontal Spring Mass Model Acceleration versus Position JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.5 Example Spring (k=9 N/m)  Mass (m=1 kg) model x0=0, v0 =6 Position versus time JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.6 Example Spring (k=9 N/m)  Mass (m=1 kg) JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.7 Example Spring k=(π^2)/9 N/m, mass m=1 kg model versus Time for t = 1.5 Period JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.8 Example Spring k=(π^2)/25 N/m) mass m=1 kg model versus Time JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.9 Example Spring (k=(π^2)/4 N/m)  Mass (m=1 kg) model versus Time

25 May 2017 
10.2.10 Example Spring (k=16 N/m)  Mass (m=1 kg) model Velocity versus Position JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.11 Example Vertical Spring Mass JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.12 Example Vertical Spring Mass Model Position y = 7m JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.2.13 Experimental Investigation of Vertical Oscillator Model Position y = 2 JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.3 Variation with Time of Energy in Simple Harmonic Motion JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.4(b) Variation with displacement of energy in simple harmonic motion JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.4.3 Example JavaScript HTML5 Applet Simulation Model

25 May 2017 
10.5 Example of investigation of motion of an oscillator using experimental and graphical method HTML5 Applet Simulation Model

25 May 2017 
10.6 Degrees of Damping HTML5 Applet Simulation Model

25 May 2017 
10.6.4.2 Movingcoil meters HTML5 Applet Simulation Model

25 May 2017 
10.7 Forced Oscillations and Resonance HTML5 Applet Simulation Model

25 May 2017 
Block and Spring on an Inclined Plane JavaScript HTML5 Applet Simulation Model by Wolfgang Christian

25 May 2017 
Harmonic Oscillator Virtual Lab HTML5 Applet Simulation Model

25 May 2017 
10.7.4 The response of the oscillatory system depends on the value of the frequency of the periodic force HTML5 Applet Simulation Model

25 May 2017 
Tracker SHM 200g Tension Weight Model

25 May 2017 
epub3 eBook on SHM Simple Harmonic Motion

03 August 2017 
Student Learning System Degree of Damping Ammeter Example HTML5 Applet Simulation Model

30 April 2018 
Student Learning Space Resonance type 1 HTML5 Applet Simulation Model

30 April 2018 
Student Learning Space Resonance type 0 HTML5 Applet Simulation Model

30 April 2018 
Student Learning Space Force Oscillation JavaScript HTML5 Applet Simulation Model

30 April 2018 