Wave Characteristics Experiment Starter A wave is 2m long and passes by in 4 seconds. What is the wave speed? A wave is 2m long and passes by in 4 seconds.

Slides:

Advertisements

Similar presentations

Part I - Characteristics of Waves

Advertisements

Waves Chapter 11 Section 1.

Properties of Mechanical Waves

Learning Goals: Define wavelength, frequency, period, and amplitude. Describe the relationship between frequency and wavelength. Explain how a wave’s energy.

Properties of Waves EQ: How do I describe the basic properties of waves and how a wave’s speed is related to its wavelength and frequency?

Lecture 2: Wave Phenomena II and Adding up waves.

Answer the following in your openers… 11. What happens to the amplitude of a pulse as it travels down the slinky and back? 12. What happens to the speed.

What is a wave? Speed, wave length and frequency.

Wave Characteristics Experiment Starter A wave is 2m long and passes by in 4 seconds. What is the wave speed? A wave is 2m long and passes by in 4 seconds.

Waves and Sound. Waves and Sound Auto slide change for this page, WAIT….. Introduction Auto slide change for this page, WAIT…..

Wave Theory Essential Question: What is a wave?. Answer Me!!!  Give an example of a wave. Then describe what that wave carries.

Waves Transferring Energy. Waves: traveling disturbance that carries energy from one place to another Waves travel through water, but they do not carry.

Warm-Up: January 30, 2012 Where do we encounter waves? Write down all the examples of waves that you can think of.

Wave Properties. 〉 Some waves are scarier than others. 〉 To compare the strengths of waves, we measure amplitude (or the height of a wave)

What are waves? Waves = a transfer of energy from one place to another Ex. = a water wave is a disturbance at the surface of the water. Ex. = a seismic.

Physics - Definitions, Properties, and Calculations

Waves Waves. Types of Waves l Longitudinal: The medium oscillates in the same direction as the wave is moving è Sound l Transverse: The medium oscillates.

1© Manhattan Press (H.K.) Ltd Stationary waves on a stretched string.

 Chapter 17 Mechanical Waves & Sound. How does a disturbance produce waves?  Procedure  Fill a clear plastic container with water.  Observe the surface.

Chapter 14 Waves and Sound

 Waves are oscillations and they transport energy.  Medium: The matter through which a wave travels  2 Subsets of Waves: Mechanical  waves that require.

Properties of Waves EQ: How do I describe the basic properties of waves? How is a wave’s speed related to its wavelength and frequency?

WAVES. Chapter Twenty-Three: Waves  23.1 Harmonic Motion  23.2 Properties of Waves  23.3 Wave Motion.

Characteristics of Waves

Part 1 – Wave Characteristics. What is a Wave? A disturbance that carries energy through matter or space.

Look at your formula chart for question 9 10.

24.2 What is a wave?  A wave is an oscillation that travels from one place to another.  If you poke a floating ball, it oscillates up and down.  The.

Bellwork (4/14) What are electromagnetic waves? Waves that consists of oscillating electric and magnetic fields.

The Period, or the time it takes for wave to complete on wavelength, is related to ____________ Frequency.

UNIT EIGHT: Waves  Chapter 24 Waves and Sound  Chapter 25 Light and Optics.

Chapter Twenty-Three: Waves

Chapter 14 Waves. I. What’s in a wave? A.A WAVE is a repeating disturbance or movement that transfers energy through matter or space. 1.Waves transfer.

An Introduction to Waves Learning Objectives: Understand that waves transfer energy without transferring the medium. Understand that waves transfer energy.

1. Calculate the distance the wave travels in 3 minute if the velocity is 9 m/s and the wavelength is 6 m.

WavesSection 2 Bellringer In the diagram, A is the distance from a point on one wave to an identical point on the next wave. What might this distance be.

Halliday/Resnick/Walker Fundamentals of Physics

Do Now: Take the waves pre-test – tell me what you already know about waves as we start our new unit.

PROPERTIES OF WAVES Let’s Surf!. What is a wave? A wave is an oscillation that travels, moving energy from one place to another Caused by a vibration.

Wave Properties. Amplitude The distance a wave vibrates from its rest position. The distance a wave vibrates from its rest position. The greater the amplitude,

WavesSection 2 Section 2: Characteristics of Waves Preview Key Ideas Bellringer Wave Properties Wave Speed Math Skills.

Waves & Sound Review Level Physics.

The Universal Wave Equation

Define “wave” Explain why there is no sound in space Define “period”

Traveling Waves: Refraction

Types of Waves Waves on a String.

Section 2: Characteristics of Waves

Waves Check your notes!.

Properties of Waves.

Chp Properties of Mechanical Waves

Mechanical vs. Electromagnetic Waves

Characteristics of Waves

UNIT EIGHT: Waves Chapter 24 Waves and Sound Chapter 25 Light and Optics.

Waves and their properties

Wave Frequency and Speed

11-2: Wave Properties.

11-3: PROPERTIES OF WAVES.

11-3: PROPERTIES OF WAVES.

1. Does a longitudinal wave, such as a sound wave, have an amplitude ?

Unit 7 Waves & Beaches.

Waves at Boundaries.

Class Starter: Waves What are some examples of waves in nature?

What is a sound? Sound is a pressure wave in air or any other material medium. The human ear and brain working together are very good at detecting and.

Section 2: Characteristics of Waves

Section2 :Wave Properties Wave: disturbance that carries energy

Presentation transcript:

Wave Characteristics Experiment Starter A wave is 2m long and passes by in 4 seconds. What is the wave speed? A wave is 2m long and passes by in 4 seconds. What is the wave speed? v = d/t = 2m/4s =.500 m/s

Part I: Finding the Wave Speed and Frequency Open the phet “Waves on a String” simulation. Note that you can create a wave three different ways: manual, oscillate, or pulse. The string can be attached at the right end three different ways: fixed, loose, or no end. At the top you can set the Amplitude, Damping, Frequency, and Tension. You will calculate the correct frequency yourself. You may use the ruler and timer ( which are accurate in meters and seconds ) to measure the wavelength and period of the wave. Set the string with the following settings: Amplitude =.50, Damping = 0, Tension = highest setting, Oscillate, and No End.

"f"TensionMeasure Calculate (m) T(s)f (Hz)v (m/s) 1High 2 3 1Medium 2 3 A. Set the frequency to 1 and produce a wave. Use the tools to measure the wave length and the period. Note that you can step the wave with the timer on to slow down the motion and measure the period. B. Calculate the frequency in Hertz and the wave speed in meters/second. C.Repeat these steps for a frequency setting of 2, and 3. Record your measurements and calculations in an excel spreadsheet. D. Set the tension to medium, and repeat for frequencies of 1, 2 and 3.

Part II: How Waves Reflect A. Set the tension to 10, the amplitude to 50, and the damping to zero. B. Set the source to PULSE. Observe the reflected pulse for a fixed end, and a loose end. Draw the initial pulse, and the reflected pulse for each end type.

Questions 1.What did you notice about the wave speed for different frequencies, but the same tension? 2. When the tension was lowered, what happened to the wave speed? 3.State a rule for what a reflected pulse looks like for a fixed end, and a loose end. 4. Two strings on a guitar have the same length, but different frequencies. How could you tell which string was under the greater tension just by listening to the plucked strings? Explain carefully. 5.A person watching water waves notes that 3 complete wave pass by in 4 seconds. She also notices that each wave is 1.5m long. Calculate the wave speed, the period, and the frequency. 6.Middle C on a piano is Hz. The speed of sound is 344 m/s. Find the wavelength and period of this sound wave.

Report Checklist A.Data table from Part I. B.Two drawings from Part II. C.Write out the 6 questions and answer them in complete sentences. A.Data table from Part I. B.Two drawings from Part II. C.Write out the 6 questions and answer them in complete sentences. Each student must hand in: