Slinky: …. MATERIALS. Exploring Waves Lab. Waves Slinky Lab Answer Key Wave Properties Waves Slinky Lab Answer Key When somebody should go to the ebook stores, search foundation by shop, shelf by shelf, it is essentially problematic. a Mexican wave in a sports stadium. Finally the Slinky® can be used to. If you compress one portion of the slinky and let go, the wave will move left to right. Background Information In researching on the internet I found out that earthquake waves come in both compressional and transverse types and the compressional waves are always the fastest. We can make both compressional and transverse wave types. 3) The slinky was then moved left to right continuously and observations were made. Destructive Interference. 9-12: 4F/H6ab. gathered in the field in your wave journal which I will be grading. Measure how long it takes for the transverse wave to reach the end of the slinky. Heat lab may be omitted. Slinky Lab Teacher Notes & Answer Key. With your partner holding one end of the slinky firmly so that it cannot move, move your hand in a QUICK motion to one side and back to the center. Do NOT overstretch the slinky!. Slinky Wave Lab. Waves: Waves and Information Welcome to our lesson plan of Waves and Information directed to 4th graders! Our lesson plan consists of a five week schedule that includes PowerPoint presentations, videos, worksheets, labs and activities, vocabulary lists, readings, quizzes, and a final test. 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. If you couple a microphone to a slinky, and then tap the slinky, it produces a wonderful chirping noise. The speed and power of the waves is reported, and the wavelength and amplitude can be measured. P-WAVES (PUSH -PULL): Practice first by pulling the Slinky toward you a bit and then pushing it away. Make slow waves, then medium, then fast. The slinky consists of a collection of dots to represent its coils. Stretch the slinky (in the air, not on the floor) so that its end-to-end length is 4 to 5 m. Then have them create a secondary wave, which can be done in the rope medium. The air particles move back and forth creating sound waves. Unit: Physics A – Outline and Lesson Plans Science 21 Phys A – Outline P3 E E E T e ENT UNIT T e LF-S. Name a device available in the laboratory for studying waves. Students in each group should take turns performing the activities. Procedure: Select a lab partner and gather the lab materials. Hold the free end of the slinky and stretch it (1 to 3 m depending upon the nature of slinky). Measure how long it takes for the compres-sional wave to reach the end of the slinky. Repeat steps 4-8 four more times so that you have done five trials total at a 15° inclined plane. internal waves and waves occurring within a stratified fluid. Getting Into Interference (SH). The amount of waves in a given time. Wave energy moves through water the same way. 5-Decreased to one half its initial value. Physics Regular 1112 Williams Waves & Sound - 5 Name:_____No:_____ Super Slinky Lab! Purpose: The purpose of this lab is to explore and investigate the properties of mechanical waves. Observe and measure transverse, longitudinal, and combined waves on a model of a spring moved by a hand. Waves are energy moving from one place to another. The Company was incorporated in 2003 and is registered with IndiaMART. Task: Watch Video E3. Matyas The Arts Academy at Benjamin Rush Overview Rationale Objective Strategies Classroom Activities Annotated Bibliography / Resources Standards Appendices Overview The Doppler effect of sound is a method used to determine the relative speeds of an. This lab book is designed to follow Paul Hewitt’s “Conceptual Physics Fundamentals” textbook. Students in each group should take turns performing the activities. Which type of waves moves faster? Why do you think there is a difference in wave speed? 4. If this doesn't stretch out the entire slinky, take a smaller portion of the slinky and repeat this step so that the slinky can still move its coils. Mark the positions of each end with masking tape. Quiz: Food Pyramid. Echo Lab 16. For your measurements, you will use two different kinds of string: a golden “stretchy” (or elastic) string, or a white “non-stretchy” (or inelastic) string. Make a chart. Identify the parts of the wave below a. On a smooth floor, stretch the slinky out between you and your partner, to a length of about four meters. Stop all motion on the slinky. Move them both from side to side at the same time—but move the top Slinky further in each direction than the bottom Slinky. These sections are labeled in the following diagram: #N#Amplitude ( Top, Wave Home ) The term amplitude can have slightly different meanings depending upon the context of the situation. (a) The compression of the spring here represents the compression of air or the medium in which the sound travels. org is the web site for Earth Reference Data and Models. After watching the video, students should answer these questions on the Exploring Sound Waves student sheet:. Get answers from your peers along with millions of IT pros who visit Spiceworks. Procedure: 1. This lab book is designed to follow Paul Hewitt’s “Conceptual Physics Fundamentals” textbook. Measure the length of the outstretched slinky. In this lab, waves that move through a metal slinky are analyzed. The pulse speed is always the same. edu/node/110 Students use a slinky to model earthquake waves. Fill in the blanks in the. On the table or the floor, create a compression that moves along the spring. We hope that by the end of the experiment you will have developed a. Introduction: The speed, v, of a wave depends upon the properties of the medium through which it propagates. Oscillations, Waves, and Sound Kit EP-3578 $300 Comprehensive Physics A Steel Transverse Wave “Snakey” Spring (1. A slinky can be used to show the way that waves travel. In this lab, you will study the transverse standing waves formed along a vibrating taut string attached to a rotating electric motor. Label the transverse wave on your notes with the various parts listed in the notes. Stage Lighting Optics, Physics January 11, 2016. 5m on the class table (do not damage the slinky) From one end, give the spring a flick (down the spring, at your partner) with your finger. Determine what happens when the wave hits the other side. Physics Experimenting with Slinky Springs Enoch Lau 11Ph1 Page 3 of 12 EXPERIMENTING WITH SLINKY SPRINGS: INVESTIGATION 2 Aim: To find ways of altering the wave velocity of a pulse (transverse) in the same spring as Investigation 1 Context: Again, we will use the formula v = s t to calculate the velocity of the pulse travelling along the spring. LAB REPORTS DUE FRIDAY. In the article from Stanford’s “The Physics of a Falling Slinky” a thorough explanation is given as to why this is so. Instead, it is commonly thought that the frequency of a wave determines the speed with which it travels. Pre Lab: Define each: Reflection. When you have completed the trials, return the slinky and answer the Conclusion Questions. In pairs, have each person hold the far end of the Slinky in place. P-WAVES (PUSH -PULL): Practice first by pulling the Slinky toward you a bit and then pushing it away. Shake one end of the Slinky from side to side. Through the first part of the lab, I was able to see these waves. A slinky looks as though it is levitating when dropped. There will be three nodes on the slinky, one in the center and the other two 1/6 of the slinky from each end. - visible waves background with Cornell notes on back from 15-1 types of waves ppt and 15-2 wave properties ppt (p. Students actively create this type of wave and analyze its parts. A suggestion is to have students draw a model of how waves move on their KWL chart at the start of the lesson. Students will simulate one of the three types of lithospheric boundaries. edu/node/110 Students use a slinky to model earthquake waves. The number of times you move it in a. hw1: Concept review. In the seismograph below, label the P waves and the S waves. Two day lab dealing with transverse and longitudinal waves using a slinky. PHET Simulations Lab: Standing Waves Name: You will notice it is very similar to the slinky lab we have recently completed. Next, students should use their Exploring Sound Waves student esheet to go to and watch the Introduction to Acoustics Instruments video. Forces and Waves Study Guide Study Guide Answers: Forces, Electromagnetic waves, Properties of waves Grudgeball Review game. Waves: Waves and Information Welcome to our lesson plan of Waves and Information directed to 4th graders! Our lesson plan consists of a five week schedule that includes PowerPoint presentations, videos, worksheets, labs and activities, vocabulary lists, readings, quizzes, and a final test. Remind them of the overall objec-tive of the lab - it is not just to play with toys! The procedure for this part of the lab is described on the Student Lab Sheet. Summative 1 Study Guide Study Guide Answers: Forces, Electromagnetic Waves, Properties of Waves grudgeball_forces_and_waves. Answers to Questions: 1. Types of mechanical waves. Release the coils and observe the motion of the spring. A wave traveling on a Slinky® that is stretched to 4 m takes 2. Observe the wave motion. Real Lab Procedure: For Transverse Waves. There are two types of waves. Have one student hold each end of the slinky so that is stretched with very little slack in the slinky. Use the other slider bar to change the frequency of the wave. Frank Noschese masters the Slinky. Additional resource Periodic Table Packet: periodic-table-coloring-and-questions1. Sound waves are longitudinal waves. A longitudinal wave is a wave in which particles of the medium move in a direction parallel to the direction that the wave moves. When two sound waves of distinct frequencies are perceived by the ear, there is an alternative constructive and destructive interference which causes the sound that reaches the ear to be alternatively soft and loud. Editor's Note: Physics education research in the past decade indicates that students have commonly-held misconceptions about how waves originate, move, and behave. Explain why waves travel at different speeds. Mechanical energy (ME) can exist as either kinetic or potential energy. 4) If you are able to finsih the lab and are looking for some extra practice with electric circuits, try this practice sheet. With the slinky stretched out to the tape, hold the spring near one of the ends and pull 20 cm. METHOD 2: One person should cup his or her hand over the last 3-4 coils of the slinky and, when the slinky is nearly at rest, hit that hand with the fist of the other hand. Waves occur around us every day. Adjust the amplitude and frequency of the hand, and the tension and density of the spring. (To shear means to slide one thing sideways past another. A wave can be described as an energy disturbance that travels through a medium from one location to another. Shop Slinky and other Science products at hand2mind – a leading online provider of manipulatives and educator resources for PreK through 12th grade. Describe the relationship between the frequency and wavelength of a wave. [MOBI] Slinky Lab Answers - icripalimosani. As a result, we fail to realize that light, radio and television signals, cosmic rays, sound, and neutrinos are passing all around and through us. Explore force and motion with a physics lab experiment, make a DIY battery with our potato battery kit, study alternative energy with a solar power experiment, learn about acids-base reactions with a bath bomb science kit, observe the microscopic world around you with a home microscope, and explore your backyard with rockhound kits. The compressional disturbance that is transmitted to the slinky will propagate along the slinky to the other person. Lab books, Slinky, pieces of string, meter sticks. Grip the slinky firmly. Theory Sound: It is a form of energy produced by vibration and it needs medium to propagate. Slinky Lab With PhET Waves Simulation: Description Two-page (low paper use) lab with ten-point formal assessment at its conclusion. Most familiar are surface waves on water, but both sound and light travel as wavelike disturbances, and the motion of all subatomic particles exhibits. Science Name_____ Date_____ Slinky Lab. Move the listener around and hear what she hears. Select a lab partner and gather the lab materials. back at all. Properties of Waves Playposit 14. Obtain listed materials and make copies of "It’s Slinky, It’s Slinky" handout. As the wave moves through the. The number of times you move it in a. Many will think that the amplitude (the height of the wave) or the shaking speed (number of waves per second) will alter the speed of the wave. As a guest, you can only use this Gizmo for 5 minutes. Seismic Waves Slinky Lab Answers - adspider. Repeat steps 4-8 four more times so that you have done five trials total at a 15° inclined plane. Using a slinky, you can change the amplitude by just pushing the end of the slinky farther away or less farther away than just 15 inches. As a longitudinal wave passes down the length of the slinky, we see the coils compress (bunch up) and expand (spread out), and we see bunches travel along the slinky. Wavelength e. Explore the wonderful world of waves!. 2-Increased by a factor of 4. Purpose: The purpose of the lab is to study the types of waves and their properties using a slinky. On a smooth floor, stretch the slinky out between you and your partner, to a length of about four meters. One can do this by grabbing a section of Slinky, pulling it together at the end, and releasing it. A wave will. Their data table is shown below. back at all. Describe how this changing the tension affects the characteristics of the wave (wavelength and speed). Any individual dot can be grabbed at one location and shook back and forth to create vibrations. Physics with Video Analysis is a product of the NSF-funded. Wavelength e. Tape Pre-Lab. 19, 2019, 7:16 p. Some examples of electromagnetic waves are Radio, Gamma, X-rays, Infra-red, and Microwaves Electromagnetic waves are able to travel through a medium of liquids, solids,. It will utterly ease you to see guide Waves Slinky Lab Answer Key Wave Properties as you such as. Making Waves Lab Make-Up Go to www. A wave can be described as an energy disturbance that travels through a medium from one location to another. Slinky Simulation Goal: To explore the properties and behaviors of waves on a Slinky. The Slinky Lab Interactive provides the user with a virtual slinky. Wave on a String Phet Simulation Breaking PhET Simulations #1: Wave on a String Wave on a String Phet Example Do the Phet in the link below. The wave reflects backwards when it hits the other student. Motion, Physics, Waves and Sound. Record the time for 10 cycles and the wavelength in a chart. CHEMISTRY: LAB ON WAVES Purpose: Most of us have very little visual contact with waves in our lives. INTRODUCTION TO SOUND PROJECT. Click where it says “click here” to see a demonstration of an S wave in action. Answer: Physical wave, reflection. a Mexican wave in a sports stadium. Adjust the amplitude and frequency of the hand, and the tension and density of the spring. Base your answer to the following question on the map below, which shows the snowfall from the fall of 1976 through the spring of 1977, measured in inches, for most of New York State. V = λf For traveling transverse waves in a stretched string, the wave speed is expected to be: V =F /µ where F is the tension in the string and µ is its linear density or mass per unit length. Happy to help, Deidre. Stretch out your slinky along this line. Once you find your worksheet, click on pop-out icon or print icon to worksheet to print or download. PHYSICS 2018-19April 8, 2019. DO NOT OVERSTRETCH THE SLINKY!!! Do NOT let go of the slinky while it is stretched out! 2) Move one end of the slinky from side to side at a constant rate. Ladybug Revolution Virtual Lab Ladybug Revolution Virtual Lab 10/24/2012. A wave can be described as an energy disturbance that travels through a medium from one location to another. As the wave moves through the medium (water, slinky, air), energy is being passed from one particle to the next. Study for Ch 17 Test. 7 O A -Qs s-lab-e 2. Students will simulate one of the three types of lithospheric boundaries. Describe the transmission and reflection of waves from Slinky to Snakey. Most familiar are surface waves that travel on water, but sound, light, and the motion of subatomic particles all exhibit wavelike properties. Mechanical waves, such as sound waves or water waves, must travel through a medium, or matter. As a guest, you can only use this Gizmo for 5 minutes. By the time the wave reaches the shore you can hear it. Slinky Lab Waves Playposit 15. How do measure the distance of one wavelength ( )? The time of one period (T)? 3. In this investigation you will observe the interaction of wave pulses on a spring and draw a conclusion about when constructive and destructive interference occur in waves. edu In Chapter 4 we discussed transverse waves, in particular transverse waves on a string. Mechanical waves 18. Label the transverse wave on your notes with the various parts listed in the notes. Some examples of waves include; water waves, sound waves, and radio waves. Electromagnetic waves (light) are transverse waves. Lab 9 - Simple Harmonic Motion Adulthood and. Click where it says “click here” to see a demonstration of an S wave in action. Sound waves are longitudinal waves. Wiley & Sons, 1985, reprinted by Kreiger Publishing Co. Select two or three students to share their observations with the class. ON LEVEL / ADV. The slinky with the greater mass of 207 grams traveled faster at 0. Release the coils and observe the motion of the spring. On a smooth floor, stretch the slinky out between you and your partner, to a length of about four meters. 5 meters long on the floor with a piece of tape. These sections are labeled in the following diagram: #N#Amplitude ( Top, Wave Home ) The term amplitude can have slightly different meanings depending upon the context of the situation. Waves in the stretched strings of musical instruments and the electromagnetic waves that make up radio waves and light t/f: Whenever the motion of the medium is at right angles to the direction in which a wave travels, the wave is transverse. (DO NOT EXCEED THE ELASTIC LIMIT OF THE SLINKY). D = _____ meters 2. In the Standing Wave Lab, lab partners Chloe and Paige adjust the frequency of a mechanical oscillator in order to vibrate a 1. Answer the last two questions in notes for candy. Science Recap - echo lab 17. Students will produce P and S waves using a Slinky© to understand how seismic waves transfer energy as they travel through solids. One of them was called Wavy Motions. Examiner : Which type of wave can be produced on a slinky? Examinee: Both, transverse wave as well as longitudinal wave. Mark the positions of the end of the Slinky by sticking pieces of tape on the floor. Materials: Metal slinky; Plastic slinky of the same size. STATION 1 - Slinky Transverse Waves 1) Hold the slinky on the floor with a partner so that the spring is stretched out in a straight line. In part 2 you will explore the movement of seismic waves through the Earth’s interior using a computer simulation. The teacher will explain that the S waves of an earthquake look like the waves produced by the shaking of the jump rope. Label the diagrams below with the appropriate wave type. GENTLY shake (vibrate) the other end side-to-side (side-to-side is easier than up-and-down). What causes the “walk down the stairs” slinky trick to work? The slinky has been enjoyed by many children and adults alike for 70 years since its creation by Richard James in the early 1940s. 4-Increased by a factor of 2. This is called the line of equilibrium. A transverse wave is a wave in which the medium vibrates in a direction perpendicular to the direction of the traveling wave. Contact Jim Sizemore for quizzes that correspond to this lab book. • Define wavelength, frequency, amplitude, and period of a wave. Waves: Sound and Electromagnetism Movie Review. Snaky ®: Which Spring is Dominant? Purpose: This lab is designed to help students understand how light waves interact with matter. L 23 – Vibrations and Waves [3] resonance clocks – pendulum springs harmonic motion mechanical waves sound waves golden rule for waves musical instruments The Doppler effect – Doppler radar – radar guns updated 10/23/07 2 Review • A mechanical wave is a disturbance that travels through a medium – solids, liquids or gases. Slinky waves Introduction In this experiment you will look at the propagation of waves. Materials: Slinky, meter stick, pencil. electromagnetic waves – eg light waves, microwaves, radio waves. In pairs, have each person hold the far end of the Slinky in place. Students will investigate plate tectonics at some select Web sites. This site uses Akismet to reduce spam. Class Activity: Ch. Waves come in two different forms; a Transverse Wave which moves the medium perpendicular to the wave motion, and a. Standing Waves. Sir Oliver Lodge's experiment demonstrating the first tunable radio receiver was an important stepping stone on the path toward the invention of a practical radio. Stretch out your slinky along this line. Label the diagrams below with the appropriate wave type. For example, when the medium, wind, blows across the surface of the medium, water, it causes a surface wave to form. The tile squares are 1 ft 2. Wave Lab PROBLEM: How do waves travel in a spring? Procedure: 1. wave that vibrates perpendicular to the direction of wave motion. The slinky consists of a collection of dots to represent its coils. Use a slinky to make a transverse wave (where the direction of the wave motion is 90° to. 4 How does the particle motion compare to the direction of the wave’s velocity for a (i) transverse wave and (ii) longitudinal wave?. Ask students to use the interactive activity to determine which model represents which type of wave. Wave Basics Bill Nye - Waves & Worksheet Waves notes (for outline) W hat are waves? - ppt notes Amplitude and Frequency with a Boat Visuals of Longitudinal  Longitudinal and Transverse waves - visuals Characteristics of Waves - slinky lab Experimenting with waves Earthquake video (for experimenting with waves) Sound How to shatter glass. This tutorial is a three-dimensional simulation of a cathode ray oscilloscope producing Lissajous figures as it compares sinusoidal voltages. In your binders, you must answer: What EMS wave are you exploring? What are the properties of the wave? (high frequency? Low frequency?) What careers or jobs use your wave? How does that wave work?. Plane polarised waves are emitted by the transmitter and If you measure the angle of the filter and record the intensity at the receiver you can then show Malus's Law in the lab. Repeat steps 4-8 four more times so that you have done five trials total at a 15° inclined plane. Measure the distance between the pieces of tape. Wave Lab PROBLEM: How do waves travel in a spring? Procedure: 1. Home Teacher Editions have reduced student text pages, lesson information for the teacher and answers to discussion questions in magenta. Heat lab may be omitted. COORDINATED SCIENCE 1 Background: You will utilize a slinky to model earthquake waves, learn the speed, direction and behavior of different waves which tell scientists about earthquakes. • Compare longitudinal and transverse waves. 16 best of wave worksheet 1 answer key labeling waves bill nye waves worksheet cramerforcongress wave energy lab slinky w key middle school science waves study guide answer key crash course physics 39 light is waves worksheet teaching the kid middle school wave worksheet u10 worksheet 1 e dimensional waves wave properties worksheets & teaching resources play and then click pause after exactly. Make a transverse wave. Any individual dot can be grabbed at one location and shook back and forth to create vibrations. I bring along a “snakey,” which is like a smaller-diameter slinky with the coils very close together. Place slinky on floor and stretch so that the rings are 1cm. Have two people hold each end ofthe slinky and each make a single transverse wave pulse on the same side of the slinky. First, we must review some basic electromagnetic theory. After a wave is created, is the velocity constant, increasing, or decreasing? b. For example, when the medium, wind, blows across the surface of the medium, water, it causes a surface wave to form. GENTLY shake (vibrate) the other end side-to-side (side-to-side is easier than up-and-down). Waves - The Physics Classroom. Background: You will utilize a slinky to model earthquake waves, learn the speed, direction and behavior of different waves which tell scientists about earthquakes. Activity 1 Making Waves For You To Do 1. Many students are missing assignments (CH. This is the line of equilibrium. Physics with Video Analysis is a product of the NSF-funded. 2) a pulse was sent along the slinky by moving it in and out and observations were made. Mechanical waves 18. Procedure: Leave the first bottle empty. LAB11: Slinky Lab INTRODUCTION DUCTION Waves occur all over the natural world. The frequency f and wavelength λ of the standing waves are related to the traveling wave speed V through the expression. If you compress one portion of the slinky and let go, the wave will move left to right. Their lab handout may be submitted for grading. physicsclassroom. Two day lab dealing with transverse and longitudinal waves using a slinky. Displaying top 8 worksheets found for - Slinky. Work time on missing/late work. Many students are missing assignments (CH. Transverse and Longitudinal Waves Materials: • Slinky Instructions: 1. measures 76 x 100mm and can extend to many times its length and is useful for demonstrating several fundamentals of wave motion. • Analyze the behavior of waves on a Slinky. (Caution – Do not over stretch the slinky!) Send a single wave to your partner (see below). Seismic Waves Slinky Lab Answers - adspider. This slinky is out for general play and educational usage (light/energy waves) in an informal educational makerspace area and it has held up VERY well. Switch positions and repeat. Lab M5: Hooke’s Law and the Simple Harmonic Oscillator Most springs obey Hooke’s Law, which states that the force exerted by the spring is proportional to the extension or compression of the spring from its equilibrium length. When using the slinkies, keep them on the floor so they are not damaged. Observations of a transverse wave: Send several transverse pulses to your lab partner. Get a slinky from your teacher. ” • Generate longitudinal and transverse waves on a Slinky. LAB11: Slinky Lab INTRODUCTION DUCTION Waves occur all over the natural world. This simulation lets you see sound waves. As the wave moves through the medium (water, slinky, air), energy is being passed from one particle to the next. Use Slinky to show each type. Standing Wave. Instruct two students to extend the rope. 216 PHY 202 Lab 02 - Slinky Wave Speeds A matter wave is different from a moving particle because it is a temporary disturbance that moves through a medium such as a spring, water, or a metal bar. You and your partners stretch a slinky about 4 meters. • LAB: Standing Waves On a String, finish Part A and Part B - data collection and analysis Homework: Assignment #7 QUIZ PREP: Review Waves Homework #1-#6 Review both Slinky Lab, Speed of Sound Lab, and Waves on a String - PHET Simulation. Longitudinal Pulse on Slinky. They are studying the possible effect of several variables upon the speed of a wave in a slinky. P waves are also called compressional waves because they consist of alternating compressions and expansions. Mechanical vs. Background Information In researching on the internet I found out that earthquake waves come in both compressional and transverse types and the compressional waves are always the fastest. Practice first by pulling the Slinky toward you a bit and then pushing it away. Stretch the slinky across the table. Bc careful not to tanglc thc slinky I. In this lesson, you'll view a series of video clips about waves. As the wave moves through the medium (water, air, Slinky), energy is being passed from one particle to the next. In part 1 you will use a slinky to model seismic waves caused by earthquakes. 2) a pulse was sent along the slinky by moving it in and out and observations were made. Procedure: Leave the first bottle empty. The Slinky Lab Simulation provides the user with a virtual slinky. But of course there is gravity in space, especially where the space station is located (only about 400km from Earth’s surface). This is actually how they made the sound of the blasters in the Star Wars film franchise. Two types of waves are analyzed: 1) transverse waves and 2) longitudinal wave. Also both people can create different waves and you can see the diffraction patterns. The equation for this, derived from Hooke's Law (see picture) Ticker Tape lab answers. Describe how this changing the tension affects the characteristics of the wave (wavelength and speed). They observed constructive and destructive interference in transverse. Teacher Login Required. LONGITUDINAL WAVES Stretch the slinky down the hall about 8 meters on the floor (use 3 floor tiles as I m). By varying frequency, students can observe and make measurements of data needed to answer a particular scientific question. Waves, simply put, are energy moving from one place to another. Week of 11/16/2018 and Thanksgiving. Send a wave from the Slinky to the Snakey. measured in Hertz ( Hz) Observation: Wavelength:. Each point in the medium (whatever it consists of) still oscillates back and forth around its equilibrium position, but now in the longitudinal. Science Recap - echo lab 17. (d) Worksheet Vibration and Waves. Go back to your lab table and stretch the slinky. Mechanical energy (ME) can exist as either kinetic or potential energy. complete trip, back and forth). You will be able to see the energy propagating through the slinky in a compressional way. Pull a few coils of the spring to one side near one end of the spring. DAY 5 - Discuss HW, Daily Quiz #2, Notes: Sound, Video: Doppler. However, this does not happen. Getting Into Interference (SH). ca: Industrial & Scientific Skip to main content. Lab Report Waves Lab Purpose The purpose of this laboratory experiment is to “investigate how the vibrating source affects selected characteristics of the sound produced” (Giancoli, 2006). A slinky can be used to show the way that waves travel. Electromagnetic Waves 18. The largest ocean wave ever measured accurately had a wavelength of 340 m, a frequency of 0. Destructive Interference. Kids can build, tinker, experiment, and explore STEM. a formal lab write up for this lab, but you need to summarize all of your steps and answer all of the questions found in the lab. In this activity we will examine the precise relationship between tension (T) the force applied to the string, the wave speed (v w) and the linear mass density of the string (µ = m/L which is measured in kg/m). By varying frequency, students can observe and make measurements of data needed to answer a particular scientific question. Background: You will utilize a slinky to model earthquake waves, learn the speed, direction and behavior of different waves which tell scientists about earthquakes. 0 seconds to lift a 12-kilogram block to the top of a ramp. One student should push back several of the coils and then release them. Add water to the remaining bottles by adding 30 ml (1 ounce) more to each bottle than you did to the previous one. Examples of transverse waves include: ripples on the surface of water. Stretch the slinky (in the air, not on the floor) so that its end-to-end length is 4 to 5 m. Question: Table 1: Slinky Measurements Slinky Mass. Ways of transferring energy using a slinky. Create a single transverse wave by moving one end of the Slinky once. Properties of Waves Playposit 14. What is a wave? A wave is an energy disturbance that travels through a medium from one location to another 2. Having these details right on the blog is what really sets FreeBooksHub. Introduction. Add 30 ml (1 ounce) of water to the second bottle. Compare the speed of the wave in the snakey and slinky. What you will need: Dominoes; What you will do: 1 Watch your teacher – they are going to show you how sound travels in waves by using a slinky. Then, place a check or an X in the columns that correlate with what you did with your hand. Have the Slinky rest on the floor for much of its length. Of course you can also do the old hand to hand slinky thing. a) Record the distance between the pieces of tape in your log. Once you find your worksheet, click on pop-out icon or print icon to worksheet to print or download. Melissa Axelsson • 3 years, 8 months ago • login to reply Naomi - thank you for pointing out that this lab was missing. A simulation of the classic slinky lab. Stretch out the spring between you and your lab partner. Mechanical waves, such as sound waves or water waves, must travel through a medium, or matter. So astronauts still experience a gravitational pull – it’s just that they and the space station are in free fall so they are accelerating together. *PLEASE NOTE* This lab requires one slinky per lab group This fun activity will help your students to better understand waves. Answers to Questions: 1. We can make both compressional and transverse wave types. This series will be familiar to most musicians, particularly to buglers and players of natural horns. Instead, it is commonly thought that the frequency of a wave determines the speed with which it travels. One person makes a wave pulse to their left, the other to their right so that thewave pulses are on the same side ofthe slinky as each other like. This tutorial is a three-dimensional simulation of a cathode ray oscilloscope producing Lissajous figures as it compares sinusoidal voltages. Longitudinal wave on Slinky. Shop Slinky and other Science products at hand2mind – a leading online provider of manipulatives and educator resources for PreK through 12th grade. The answer is mechanical energy. Curly introduces a disturbance into the slinky by giving it a quick back and forth jerk. When a Slinky sits atop a staircase, gravity acts on the toy, keeping it still. Standing Wave. L 23 – Vibrations and Waves [3] resonance clocks – pendulum springs harmonic motion mechanical waves sound waves golden rule for waves musical instruments The Doppler effect – Doppler radar – radar guns updated 10/23/07 2 Review • A mechanical wave is a disturbance that travels through a medium – solids, liquids or gases. ) What moves down the slinky as the wave propagates (propagates means 'moves forward')? 2. There will be times during the week when I will be available on Zoom to answer any of your questions or explain the assignments (see Distance Learning Schedule). For example, when the medium, wind, blows across the surface of the medium, water, it causes a surface wave to form. Sound and earthquake waves are examples. How do measure the distance of one wavelength ( )? The time of one period (T)? 3. PROPERTIES OF WAVES 1. Longitudinal Waves Discuss the information presented to students in the Introduction. Slinky Wave Lab Background A wave can be described as an energy disturbance that travels through a medium from one location to another. ON LEVEL / ADV. The waves either travel in waves or in pushing patterns, like a snake slithering on land for the waves, or a slinky that's being stretched, and waved side to side. Wave Properties How Do Frequency, Amplitude, and Wavelength of a Transverse Wave Affect Its Energy? Introduction Energy can be transported by waves. Longitudinal Pulse on Slinky. You should have 2 marks per row for the 1 st 6 columns. PROCEDURE AND QUESTIONS: While your partner holds one end very securely on a smooth floor, pull the other end until the slinky's coils are about an inch apart. Wavelength e. Which type of waves moves faster? Why do you think there is a difference in wave speed? 4. On a smooth floor, stretch the slinky out between you and your partner, to a length of about four meters. Please email me photos or screenshots of any of your missing work. Materials: Slinky. This Slinky Lab- Simulating the Motion of Earthquake Waves lesson plan also includes: Sixth graders simulate primary and secondary waves. Be sure to explain your answer using a definition you wrote inyour pre-lab. Seismic Waves Slinky Demo : Click here for one website that discusses how to demo seismic waves. Because P-waves and S-waves travel at different speeds, they reach the seismic stations at different times. Slinky: …. 4) If you are able to finsih the lab and are looking for some extra practice with electric circuits, try this practice sheet. io seismic waves slinky lab answers is available in our book collection an online access to it is set as public so you can get it instantly Our digital library saves in multiple locations, allowing you to get the most less latency time to download any of our books like this one Kindly say, the seismic. Slinky Wave Lab. Place slinky on floor and stretch so that the rings are 1cm. ----- Part I - Wave Types Transverse and Longitudinal Waves. Transverse and Longitudinal Waves: In this activity you'll be considering disturbances that move along a. Client Hosted at www. Design ways to determine the speed, frequency, period and wavelength of a sound wave. The frequency f and wavelength λ of the standing waves are related to the traveling wave speed V through the expression. The other person will be timing the waves on the Slinky (two complete trip, back and forth). Using a slinky, you can change the amplitude by just pushing the end of the slinky farther away or less farther away than just 15 inches. Standing waves lab; Standing waves tutorial; Ch 12. There are two types of waves. Longitudinal wave on Slinky. Materials: SlinkyTM. Purpose: The purpose of the lab is to study the types of waves and their properties using a slinky. 3 ; 1 hour. Electricity & Magnetism Atomic and Nuclear. The Slinky Lab Simulation provides the user with a virtual slinky. To make the transverse wave, one person moves the slinky from side to side making one long wave shape on the table top. Wave Properties Lab. The Slinky "polarizer" can be used as a way to understand the light polarizers. Maloney Physics 3/4 rev:5. In a physics laboratory experiment, the coil is rotated during the time interval Deltat from a position in which the plane of each turn is perpendicular to Earth's magnetic field to one in which the plane of each turn is parallel to the field. Lab Handout Lab 19. Record you observations in your lab notebook, and number them so you can tcll thcm apart aftcr. medium (water, slinky, air), energy is being passed from one particle to the next. 24 m and takes t = 0. In this lab, you will study the transverse standing waves formed along a vibrating taut string attached to a rotating electric motor. Study the two seismograms. The tile squares are 1 ft 2. From its origin, the wave will propagate outwards in all directions. Electricity & Magnetism Atomic and Nuclear. Stretch out your slinky along this line. 7:Wave Stations Lab Youtube Ripple Tank Video Wave Clip 1 Wave Clip 2 Wave Clip 3 Wave Clip 4 Wave Clip 5 Wave Clip 6 Wave Clip 7 PhET Wave on a String Ripple Tank Demo 1 Ripple Tank Demo 2 The physics of noise-cancelling headphones PhysicsGirl Standing Waves Standing longitudinal waves Doppler Movies. Longitudinal Pulse on Slinky. Animation: A Plane Wave Traveling. 19, 2019, 7:16 p. A transverse wave is a wave in which the medium vibrates in a direction perpendicular to the direction of the traveling wave. Have them explain how the winds. acquire the slinky lab answer key associate that we allow here and check out the link. The procedure provides a model for guided-inquiry design of wave experiments to investigate the influence of frequency, amplitude and wavelength on the speed of the pulse. Adjust the amplitude and frequency of the hand, and the tension and density of the spring. place a piece of masking tape at about the middle of the slinky. Classify the pictures as longitudinal or transverse. Waves, simply put, are. 0 seconds to lift a 12-kilogram block to the top of a ramp. CATCH A WAVE – NEARPOD. Place a piece of masking tape at about the middle of the slinky. The figure, below, shows how to initiate a transverse wave pulse (see definitions at end of lab) on the slinky. The purpose of the slinky lab is to see how waves reflect, refract, and lose and gain energy. All waves must travel through a medium. The speed of the wave is simply the speed of the wave as it approaches a ship. Waves in communication systems 19. Make sure the slinky is lying on the floor. Think about the different types of waves that you know about before contemplating the answer to this question. This is a physical science lesson plan explaining the properties and propagation of both transverse and longitudinal waves. Place a piece of masking tape at about the middle of the slinky. Toys are great for learning about physics. STATION 1 – Slinky Transverse Waves 1) Hold the slinky on the floor with a partner so that the spring is stretched out in a straight line. Click on Waves. Ask students to use the interactive activity to determine which model represents which type of wave. No, waves are flow of energy, NOT material. Mechanical Waves notes. o Lab: Moon Phases and Eclipses (30 points) o Lab: Half-Life (30 points) o Lab: Green Pennies (30 points) o Lab: Balloon Races (30 points) o Lab: Sound Waves in Matter (30 points) • Summative Final Exam (30% of Course Grade) Course Completion and Extensions • Students may not complete the course in less than 30 days. P waves are also called compressional waves because they consist of alternating compressions and expansions. Wave interaction Notes 11. Waves, simply put, are. Go back to your lab table and stretch the slinky. Using a slinky, it is easy to see how waves will travel and very easy to measure their speed. Also both people can create different waves and you can see the diffraction patterns. You will be able to see the energy propagating through the slinky in a compressional way. practice producing pulses along the spring by shaking it. io seismic waves slinky lab answers is available in our book collection an online access to it is set as public so you can get it instantly Our digital library saves in multiple locations, allowing you to get the most less latency time to download any of our books like this one Kindly say, the seismic. (These will be your. The purpose of the slinky lab is to see how waves reflect, refract, and lose and gain energy. Materials: Spring Procedure: 1. Slinky Lab Answer Key 1 Free Download Ebook Slinky Lab Answer Key PDF [EBOOK] Slinky Lab Answer Key Recognizing the mannerism ways to get this book slinky lab answer key is additionally useful. Notice that a wave travels along the Slinky from you to your partner (this would make a total distance of 12 m) 5. Slinky Lab Waves Playposit 15. Project Details: 2nd 9 weeks project. Determine the speed of the waves in the elastic cord. Next, students take the Slinky and make the other end a “moveable endpoint. Have them explain how the winds. For a wave pulse on a string to travel twice as fast, the string tension must be 1-Decreased to one fourth its initial value. Describe the direction of the wave. 16 best of wave worksheet 1 answer key labeling waves bill nye waves worksheet cramerforcongress wave energy lab slinky w key middle school science waves study guide answer key crash course physics 39 light is waves worksheet teaching the kid middle school wave worksheet u10 worksheet 1 e dimensional waves wave properties worksheets & teaching resources play and then click pause after exactly. Instruct two students to extend the rope. Each group has a slinky. transverse waves you & your partner stretch a slinky about 10 meters. Summarize standing waves 3. Curly and Moe are conducting a wave experiment using a slinky. Of course, waves that we’re familiar with (like ripples on water, or waves in a Slinky that one shakes) are pretty long. Procedure: Select a lab partner and gather the lab materials. Student/Team Demonstration. PHET Wave on string Review of the Wave on a String PHET lab. Explain the relationship between waves, energy, and matter. Their lab handout may be submitted for grading. A longitudinal wave oscillates in the direction of propagation, an example would be sound waves. Repeat your trials, this time keeping the Slinky very loose. Have the students write a lab report on how wind. On the table or the floor, create a compression that moves along the spring. Wave and Optics. If a vertical Slinky pulse were sent through two vertical slits, you would expect that the pulse would pass through the first slit and then the second slit. In this earthquakes waves lesson, 6th graders experiment using a slinky to gain understanding of how waves are created during an earthquake. medium (water, slinky, air), energy is being passed from one particle to the next. Procedure: Select a lab partner and gather the lab materials. The Lab component of this course requires you to be present and active in the lab. Station 2: Waves in a. Waves, simply put, are. 5 Stretch the slinky another 50cm, total length 1. Now send a wave from the Snakey into the Slinky and describe the results. Electricity & Magnetism Atomic and Nuclear. Use Slinky to show each type. Instruct two students to extend the rope. Does a wave transport material? If not what does a wave transport and how do you know?. 4) The slinky was then held above ground and moved up and down and observations were made. The movement of the band creates vibration, or sound waves. Best of all, digital access to these Online Teacher Resources is included with purchase of the lab manual: • Word and PDF versions of the lab instructions • Student worksheets (blackline masters) in Word and PDF formats • Answer keys in Word and PDF formats. practice producing pulses along the spring by shaking it. There are two types of waves. The wave transfers the energy from your hand to the pen. In an area free of obstacles, stretch out a Slinky® so the turns are a few centimeters apart. Use your prior knowledge and the book to fill in the following blanks, then go in the hall and perform the lab. Destructive Interference. 1 meters (20 floor tiles, each floor tile is 0. A slinky looks as though it is levitating when dropped. Materials: Slinky, meter stick, pencil. Exploring Waves Lab. LONGITUDINAL WAVES. from one place to another. Some of the worksheets for this concept are Slinky and the wave lab, Lab slinkies and waves, Activityseismic slinky, Activityseismic slinky, Slinky lab handout for vernier sensors, 25 birthday activity, Slinky layout final3, Pathway essentials of physics phys 101. Waves are everywhere. When an earthquake occurs it generates four different types of seismic waves. Many students are missing assignments (CH. (a) What is the speed of the wave? (b) Using the same Slinky stretched to the same length, a standing wave is created which consists of three antinodes and four nodes. In this lab, waves that move through a metal slinky are analyzed. Measure how long it takes for the transverse wave to reach the end of the slinky. • Define wavelength, frequency, amplitude, and period of a wave. Student groups rotate through four stations to examine light energy behavior: refraction, magnification, prisms and polarization. Slinky Wave Lab. Take the other end and push it and observe what happens. visualize the compressed section of the wave traveling down the slinky. Mechanical waves 18. Do NOT overstretch the slinky!. Matija: The material of the slinky affects the compression and the motion of the wave because some materials make the compression stop because they aren’t as elastic as others, so when the compression hits the sides it doesn’t really bounce off but lightly fades away. As a team come up. Waves Earth’s Systems and Resources Design and complete your own experiment on a topic of your choice. In step 1 the particles of the medium moved ( perpendicular, parallel ) to the direction. The magnetic flux over some area A is defined as (1) Φ=∫ ⋅ KK Bda A In the case that the B-field is uniform and perpendicular to the area , (1) reduces to (2) Φ=B⋅A. the "slinky" & the wave model lab "you tangle it, you buy it!" answer all questions by explanation or diagram for full credit procedure 1. Materials: Metal slinky; Plastic slinky of the same size. Fill in the blanks in the table, analyze the data, and answer the following questions. Waves are important because they transfer energy from one place to another. Answer: physical wave, reflection 7. Complete the Slinky Lab Leading Question: How does. The experimental system is designed to make the wave motion slow enough to allow you to view directly a number of features of wave motion. What you will need: Dominoes; What you will do: 1 Watch your teacher – they are going to show you how sound travels in waves by using a slinky. One person makes a wave pulse to their left, the other to their right so that thewave pulses are on the same side ofthe slinky as each other like. Lab Part 1 - Making Waves - explore transverse and longitudinal waves using a Slinky toy. Mechanical waves 18. Students actively create this type of wave and analyze its parts. 5mm galvanised steel, 100m in length. Procedure (PART I- TRANSVERSE WAVES): 1- With one person holding one end of. Activity 3 Slinkies and Waves GOALS In this activity you will: • Make a “people wave. PHET Wave on string Review of the Wave on a String PHET lab. PS Physics Chapter 10 Wave Properties Name _____ 1. Slinky Lab With PhET Waves Simulation: Description Two-page (low paper use) lab with ten-point formal assessment at its conclusion. energy moving. A wave is a disturbance that moves through a medium.
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