In this lesson, the learner will understand the concept of oscillatory motion and Simple Harmonic Motion (SHM). Explore how the time period of a simple pendulum depends on its length and gravity. Relate theoretical expressions with experimental observations.
Students will be able to:
Reference: NCERT Class 6 Science
The lesson is aligned with the NCERT Grade 11 Physics Book-Chapter 13: Oscillations, Section:8 – Simple Harmonic Motion
By the end of the lesson, students will be able to:
Students should already know:
In this session,
In this session, students are introduced to Simple Harmonic Motion (SHM) using a simple pendulum. SHM is a type of oscillatory motion where the restoring force is directly proportional to displacement and directed towards equilibrium.The activity focuses on how the length of the pendulum and gravity affects its time period, reinforcing the formula T=2π sq rt.(L/g).
| Title | Approximate Duration | Procedure | Reference Material |
|---|---|---|---|
| Engage | 5 | Teacher demonstrates a pendulum Ask: “What do you think will happen if we increase the length of this pendulum?” | Slides |
| Explore | 10 | Students use the Virtual Lab (SHM Pendulum) to change pendulum length and observe time period & oscillation speed. | Virtual lab |
| Explain | 10 | The teacher explains SHM: restoring force, displacement, time period formula. Relate simulation results to theory. | Slides + Virtual Lab |
| Evaluate | 10 | Students will attempt the Self Evaluation task on LMS | Virtual Lab |
| Extend | 5 | Students brainstorm SHM examples: swings, springs, guitar strings, oscillations in molecules. | Slides |
Simple Harmonic Motion (SHM) is a special type of oscillatory motion where a particle moves back and forth about a mean position under the influence of a restoring force. The restoring force is directly proportional to the displacement and always directed towards the mean position.
In this activity, students study SHM through a simple pendulum in a virtual lab. By changing the length of the pendulum and value for gravitational acceleration, they observe how the time period of oscillation changes, and they compare their results with the theoretical formula.
A pendulum consists of a small bob suspended by a light, inextensible string. When displaced from its equilibrium position and released, it oscillates to and fro under the influence of gravity.
T=2𝜋√(L/g)
Where:
Key Points:
Applications of SHM:
This is the list of vocabulary terms used throughout the lesson.
Welcome to the Virtual Lab on Simple Harmonic Motion (SHM)!
In this lab, you will explore how objects move back and forth in a regular repeating manner, just like a swing or a vibrating string. This type of motion is called Simple Harmonic Motion. It is an important concept in physics because it helps us understand the behavior of oscillations in everyday life and in scientific applications such as pendulums, springs, musical instruments, and even waves.
Through this VR experience, you will observe how the displacement of an object changes during SHM. You will also see how factors like mass, length, and restoring force affect the time period and frequency of oscillations.
This interactive lab will make it easier for you to visualize the motion in 3D, experiment with different conditions, and connect the theory of SHM to real-life phenomena.
Interactive 3D simulation of a simple pendulum
Adjustable pendulum length (L) and gravity (g)
Automatic calculation of time period (T)
Option to compare experimental and theoretical values
Integrated MCQs and reflection prompts at the end
MCQs are integrated at the end of each module for engagement.
Step 1: Instructions
Step 2: Formula & Explanation
T increases with L; T decreases with higher g; Mass of the bob does not affect the time period.
Step 3: Vary L and g to Calculate Time
Step 4: Evaluation