LESSON PLAN
School : Senior High School
Class / Semester : X / 2
Subject : PHYSICS
Allocation of time : 10 minutes
Competency Standards : 6. Understanding the concepts and principles of electromagnetic waves.
Basic Competency : 6.1. Describe the electromagnetic wave spectrum.
Indicator :1. Describe the concept of electromagnetic waves.
2. Sort the array of electromagnetic waves by frequency or wavelength.
A. Learning Objectives
After the learning activities students can:
1. Explaining the electromagnetic wave.
2. Explaining the spectrum of electromagnetic waves.
3. Describe the characteristics of each of the electromagnetic wave spectrum.
B. Learning Materials
Electromagnetic Waves
James Clerk Maxwell said that a change in magnetic field might generate electric field.Maxwell concluded that the speed of the electromagnetic wave depends on two properties, they are electrical permittivity and magnetic permeability. In vacuum where the electrical permittivity and magnetic permeability, the speed of the electromagnetic wave satisfies the formula:
|
c= speed of the electromagnetic wave
ε0 = electrical permittivity = 8,85418 x 10-12C2N-1m-2
μ0 = magnetic permeability = 4π x 10-7 wbA-1m-1
The electromagnetic wave propagation speed is often written as = 3,0 x 108 m/s
Therefore, Hertz experiments fully supported Maxwell’s hypothesis on electromagnetic wave. Hertz also showed that electromagnetic wave has properties which are owned by light. It undergoes reflection, refraction, polarization, diffraction, and it is able to propagate in vacuum.
Discussing about wave, beside its propagation speed, you should also remember frequency and wavelength. The relationship of propagation speed(c), frequency(f), and wavelength(λ) is:
c = λf
The Spectrum of Electromagnetic Waves from small to large is:
1) Radio Wave
2) Microwave
3) Infrared Ray
4) Visible Light
5) Ultraviolet Ray
6) X-Ray
7) Gamma Ray
C. Learning Strategy
1. Model : Contextual Teaching and Learning
2. Approaching : Inquiry, concept and learning objectives
3. Method : Lectures, Question and answer
D. Learning Procedures
Steps | Teacher Activities | Student Activities | Time Allocation |
Open Activities | 1. Teacher greeting and check attended student 2. Motivation and Aperception: how do I categorize the spectrum of electromagnetic waves? 3. Prerequisite knowledge: what is the spectrum of electromagnetic waves? 4. Information of learning objectives: explaining the electromagnetic wave, explaining the spectrum of electromagnetic waves, describe the characteristics of each of the electromagnetic wave spectrum. | 1. Pray together to begin the lesson. 2. Listening and paying attention to the motivation. | 2 minutes |
Main Activities a. Exploration b. Elaboration c. confirmation | 1. Learners pay attention to teachers' explanations about the magnitude of electromagnetic waves. 2. Learners pay attention to teachers' explanations about the characteristics each of the electromagnetic wave spectrum. 1. Teachers guide students in forming groups. 2. The teacher gives some problems determining the electromagnetic wave spectrum to be done by learners. 3. Teacher points one of group for forward at front brazes 4. Teacher comments to usufruct discussion of student 1. Teacher corrects students' answers to whether it is correct or not. If there are still students who have not been able to answer correctly, the teacher can provide direct guidance. 2. Teachers respond to students' answer discussions and provide real information. 3. Evaluated of each group based on the presentations, as well as understanding the concept of cooperation in groups. 4. Giving rewards for the best group presentation. | 1. Answering questions from the teacher. 2. Listening to the teacher's explanations about electromagnetic waves 1. Students ask questions about the material that the student did’t understand. 2. Students (supervised by teachers) discuss the notion of electromagnetic waves. 3. Students (supervised by teachers) discuss the terms of the electromagnetic wave spectrum. 4. Present the result of the group discussion in front of the class. 5. Questions and answers between groups. 1. Student asks to learn about material which was understood 2. Student listens explanation of teacher | 5 minutes |
Closing | 1. Teachers give awards to student that have good answered. 2. Students (supervised by teachers) to create a summary of discussions. 3. The teacher gives a homework assignment in the form of exercises. | 1. Mention to the conclusions. 2. Answer the greeting. | 3 minutes |
E. Learning Media
Ø Sources:
1. Kanginan, Marthen.2002.Physics X.Jakarta:erlangga.
2. Team MGMP Physics Senior High School.2006.Worksheet Senior High School Physics X.Jakarta:multigrafika.
Ø Media:
1. Powerpoint Template
2. Handphone
F. Assessment of Learning Outcomes
a. Assessment techniques:
- Written test
-Assignment
b. Shape Instrument:
-multiple choose of Test
c. Example Instruments:
-Examples of multiple choose of test
The order of the frequency spectrum of electromagnetic waves from small to large is..
a. infrared,visible light, UV, x-rays, gamma-ray
b. UV, infrared, visible light,gamma-ray,infrared ray
c. visible light, UV, infrared, radio waves, microwaves
d radio waves, microwaves, infrared ray, visible light
e. x-ray, gamma-ray,UV, light, infrared
- Sample test description
State the characteristics of electromagnetic waves.
Semarang, 4 January 2012
Signed by
Head Master, Teacher,
Mr.Taufik Heti Kurniawati
STUDENT WORKSHEET
Group :
Groupmaster :
Person :
Propagation of Electromagnetic Wave in Cell Phone
I. Learning Objectives : Explaining the spectrum of electromagnetic waves.
II. Learning Materials :
Electromagnetic wave is not the name for a single frequency wave. It has a wide frequency range. Hence, it includes many waves with different frequencies. This group of electromagnetic waves with different frequencies forms the spectrum of electromagnetic wave. The Spectrum of Electromagnetic Waves from small to large is : Radio Wave, Microwave, Infrared Ray, Visible Light, Ultraviolet Ray, X-Ray, and Gamma Ray.
Electromagnetic waves follow the formula c = λf
Where : c= electromagnetic propagation speed(m/s)
f= frequency (Hz)
λ= wavelength (m)
III. Procedure :
1.Putone cellphoneinside atransparentplastic bag and tie the plastic tighly so there is no air which allowed to get in or out
2.Use the cell phone outside to call the cell phone inside the plastic bag. Observe whether the call is successful or not.
3. Use the cell phone outside to plastic bag to call the cell phone outside. Observe whether the call is successful or not.
IV. Question
What is your conclusion?
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