Lab wave properties in a spring answers

Demonstrate constructive and destructive interference of waves. Then you make a transverse wave with high crests and deep troughs.

Introduction Waves have many parts.

Lab wave properties in a spring answers. Transverse wave train while your partner holds the other end still. On the diagram label wavelength - Greek letter lambda. The frequency of the wave depends on how fast you shake the slinky.

Shake it regularly but slowly then regularly but rapidly. Higher frequency waves are generated by shaking the spring slowly rapidly. Lab wave properties in a spring answers ask the physicist.

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Wave Properties Lab Guide - Answerspdf - 120 kB. Download all files as a compressed zip. Properties of Waves - Lab Guide.

Activity guide for middle school students to explore the relationship between amplitude wavelength frequency and speed. Wave A passes by a fixed point 3 times in 5 seconds while Wave B passes by a fixed point 5 times in 5 seconds. Use the dotted line below as a resting position to sketch the movement of each wave.

Practice sending single pulses down the spring. Place the slinky on the ground and snap your wrist sharply moving the spring quickly from the center to one side and back to the. Wave Properties 27 points Objectives After you have completed this laboratory you will be able to.

Demonstrate constructive and destructive interference of waves. Identify parts of a wave including amplitude wavelength crests and troughs. Introduction Waves have many parts.

Wave properties The low point on a transverse wave is called the. The high point on a transverse wave is called the. The shortest distance between points where the wave pattern repeats itself is called the.

The of a wave is the number of complete oscillations a point on that wave makes each second. REVIEW VOCABULARY period 14 Vibrations and. Wave properties depend on what type of energy makes the wave.

For example you splashing in the ocean or an earthquakes creating a tsunami. Descriptive wave properties include. The distance between one point on a wave and the exact same place on the next wave.

How many waves go past a point in one second. The unit of measurement is hertz Hz. Wave properties depend on what type of energy is making the waves.

The distance between one point on a wave and the exact same place on the next wave. How many waves go past a point in one second. Unit of measurement is hertz Hz.

The higher the frequency the more energy in the wave. View full document. 1 Properties of Waves Virtual Lab Name s.

Open the link for Wave on a String In the top left box choose Oscillate. In the top right box choose No End. In the box at the bottom change Damping to None Slow motion might be helpful 1.

One half the distance between the crest and the trough. Amplitude - compressional wave. Amplitude is greater when the compressions are closer together or the rarefactions are farther apart.

142 Wave Properties pages 381386 page 386 15. A sound wave produced by a clock chime is. You and your lab partner are asked to demonstrate that a transverse wave trans-.

Oscillation of a spring swing of a simple pendulum and uniform circular motion. What is the difference between frequency. The Waves on Strings lab has two parts.

This lab consists of Activities 1 2 3 and 4. Work through the activities in the usual manner in the lab and hand in your results at the end of the regularly scheduled lab period. Table of Contents 0.

Introduction to waves on stretched springs 2 1. You and your lab partner should hold opposite ends of a spring and stretch it out on the floor to a length of about 3 meters. The spring should be tight but be careful not to exceed the elastic limit.

141 Wave Properties 329 FIGURE 143 Surface waves have properties of both longitu-dinal and transverse waves a. The paths of the particles are circular b. FIGURE 142 The squeeze and release of a coiled spring toy sends out wave pulses in both directions.

Crest Trough Wave motion a b Surfs Up Answers question from page 326. A wave with a frequency of 15 hertz is moving through a heavy spring where its wavelength is 20 meters. What is the speed of this waveWhat wavelength would the wave have if it moved into a lighter spring where its speed was 60 meters per second.

What would probably happen to the amplitude of this wave after it moves into the lighter spring. In this lab you will perform several experiments to help you better understand wave motion and properties of waves. If a slinky is stretched out from end to end a wave can be introduced into the slinky by either vibrating the first coil up and down vertically or back and forth horizontally.

Wave Waves have another property called amplitude. Suppose you shake the end of a rope by moving your hand up and down a large distance. Then you make a transverse wave with high crests and deep troughs.

The wave youve made has a large amplitude. The amplitude of a transverse wave is half the distance between a crest and trough as shown in Figure 5. 16 S for one wave Period is the time for one wave 10 waves 625 Hz Frequency is the inverse of the period or 16s c.

What is the speed of the wave. V 625m 10. Sally Sue an enthusiastic physics student enjoyed the opportunity ct data from standing waves in a spring.

She and her partner held the ends of their sprin 400 eters apart. 2 Wave Properties Lab Waves on a Spring 3 Wave Behavior Lab Wave Speed Virtual Lab What are some characteristics of waves. Catch A Wave On a breezy day in Maui Hawaii wind-surfers ride the ocean waves.

You can see the ocean waves in. A spring has a spnng constant of 56 Nrn. How far will it stretch when a block weighing 18 N is hung from its encl.

F kX 18 N 032 m k 56 Nm What is the spring constant of a spring that stretches 12 cm when an Object weighing 24 N is hung from 012 m Nim A spring With a sprung constant of 144 Nm is compressed by a distance of 165 ctn. Lab Handout Lab 19. Wave Properties How Do Frequency Amplitude and Wavelength of a Transverse Wave Affect Its Energy.

Introduction Energy can be transported by waves. There are many forms of waves that exist in the world. Mechanical waves such as sound waves or water waves must travel through a medium or matter.

The purpose of the lab is to study the types of waves and their properties using a slinky. Select a lab partner and gather the lab materials. On a smooth floor stretch the slinky out between you and your partner to a length of about four meters.

Caution Do not over stretch the slinky 3. To create standing waves on the spring first get a feeling for how traveling waves can become standing waves. Three wave properties are important.

1 how waves travel 2 how they are reflected at boundaries 3 how two waves combine. Youve already spent some time exploring the first two properties of pulses in the previous problem. The Slinky Lab Simulation provides the user with a virtual slinky.

The slinky consists of a collection of dots to represent its coils. Any individual dot can be grabbed at one location and shook back and forth to create vibrations. The vibrations travel through the slinky from.