Slinky wave lab answers

This lab utilized a table, tape, slinky, timer, and meter sti ck. This lab used four equations: pulse speed= distancetime , wave speed= , fλ period= numbertotal of oscillations time , and frequency=T 1. For this lab roles were assigned to be the timer, launcher, wiggl er, holder/operator, and recorder. The slinky was taped to the le g of the ...

2. Activity-Based Questions In the activities that follow we would like you to determine the speed of the transverse wave and compare it to the theoretical prediction of the wave speed as a function of the Slinky tension, T, and its mass per unit length (or linear density), µ.Finally you will measure the speed of the longitudinal wave. (a) Open the Logger Pro file <WaveSpeed_T.cmbl> and use ...2. Compare the speed of the longitudinal waves to the speed of the transverse waves. Explain your answer. 3. Use data from Table 1 and Table 2 to calculate the average time it took for the wave to travel down and back. Use this time to calculate the average speed for the traveling wave on the Slinky® for both situations.behavior of waves can be quickly reviewed on the following day using the many available online animations. Auxiliary Materials: None Scoring Rubric: W9. Wave Behavior Demonstration Lab Included, labeled and organized all parts of the lab report. Data section includesthen rapidly to make waves in the Slinky increases the frequency of the waves. The symbol for frequency is f. The units for frequency are waves per second, or hertz (Hz). The velocity of a wave can be found using wavelength and frequency. The relationship is shown in the equation v = f. The amplitude of a wave is the size of the disturbance. The Particle Wave simulation allows you to explore the nature and properties of a wave. Properties such as wavelength, amplitude, and speed can be changes. The effects of the change on the wave pattern and particle motion can be immediately observed. Now available with a Concept Checker. Boundary Behavior of Waves.

Dink-magazin.de. P1. Nov 11, 2017 · Several different kinds of energy interact when a fuel is burned, or combusted, as in a campfire. 2 Jan 21, 2015 · Addeddate 2015-01-21 06:51:10 Identifier student-exploration-energy-conversions-gizmo-answer-key Identifier-ark ark:/13960/t5q84hd11 Ocr ABBYY FineReader 9.Slinky Wave Lab. Displaying top 8 worksheets found for - Slinky Wave Lab. Some of the worksheets for this concept are Slinky wave lab, Lab slinkies and waves, Slinky lab simulating the motion of earthquake, Activityseismic slinky, Topic 15 vibration and waves, Sound waves, Waves slinky lab answer key wave properties, Make some waves …4NB3 - Slinky Wave Demo Questions Answers 1. Use your slinky to send a side to side wave to your partner. Describe the movement of the slinky. The coils move up and down, matching the movement of the starting partner’s hand. The wave moves away from the starting person.FileName. Speed. Downloads. Properties Of Waves Virtual Lab Answer Key Pdf | full. 296 kb/s. 5562. Properties Of Waves Virtual Lab Answer Key Pdf | NEW. 1506 kb/s. 10127.Answer: D. The given info allows you to determine the speed of the wave: v=d/t=2 m/0.5 s) = 4 m/s. If there are 3 waves in a 2-meter long rope, then each wave is 2/3-meter long. Now find frequency with the equation v=f*w where v=4 m/s and w=0.667 m. the "slinky" & the wave model lab "you tangle it, you buy it!" answer all questions by explanation or diagram for full credit procedure 1. transverse waves you & your partner stretch a slinky about 10 meters. place a piece of masking tape at about the middle of the slinky. practice producing pulses along the spring by shaking itThe Particle Wave simulation allows you to explore the nature and properties of a wave. Properties such as wavelength, amplitude, and speed can be changes. The effects of the change on the wave pattern and particle motion can be immediately observed. Now available with a Concept Checker. Boundary Behavior of Waves.

6. Next create a series of waves by moving your hand towards and away from your partner (see the diagram below). Observe this wave and how it travels. 7. Answer the questions on the answer sheet. Slinky Wave Lab - Answer Sheet Questions: 1. How is a wave different than sound? 2. Label the diagrams as to which type of wave. 3. Identify the parts ..."wave pulse" partner should place a single wave pulse on the spring (either a crest or a trough). This is done by quickly jerking one end of the slinky sideways and back across one of the tile squares. Do this a few times and watch as the wave pulse travels down the slinky and reflects off the other partner. Answer questions 1-2 on yourStudents will produce P and S waves using a Slinky© to understand how seismic waves transfer energy as they travel through solids. All types of waves transmit energy, including beach waves, sound, light, and more. The velocity difference between the faster compressive P wave and the slower shearing S wave helps seismologists locate an earthquake's epicenter.first by pulling the Slinky toward you a bit and then pushing it away. Notice that a wave travels along the Slinky from you to your partner (this would make a total distance of 7.28 m) 4. You will do . 3 trials . of the P-wave, timing the wave as it does two complete trips back and forth. Record the information in . Data Table #1 . and . sketch

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A wave pulse travels down a slinky. The mass of the slinky is m = 0.88 kg and is initially stretched ... An apparatus similar to the one used in lab uses an oscillating motor at one end to vibrate a long rope with frequency f = 40 Hz and amplitude A = 0.25 m. The rope is held at constant tension by hanging a mass on the other end. The rope has ...The speed of a pulse is not determined by its shape, nor on how you flick the spring to create it. The speed does depend on the spring - and on the tension with which it is held. The speed increases as the tension is increased. When pulses meet they superpose - the displacements that each pulse alone would cause on the spring add together; but ...PhET Global. DEIB in STEM Ed. Donate. Explore the wonderful world of waves! Even observe a string vibrate in slow motion. Wiggle the end of the string and make waves, or adjust the frequency and amplitude of an oscillator.Slinky Wave Lab. Background. A wave can be described as an energy disturbance that travels through a medium from. one location to another. Waves, simply put, are energy moving from one place to. another. As the wave moves through the medium (water, slinky, air), energy is being. passed from one particle to the next.The giant slinky in the 202 Lab has mass 572 grams, with a 0.166 meter relaxed length. You hold your end stationary. Your enthusiastic lab partner stretches their end to 3.5 meters long using 2.0 Newtons Tension, and makes 2 rightward wave pulses on it each second, with 0.30m amplitude. [ a) With what speed should a rightward wave pulse propagate.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.

explore the newspaper Waves Slinky Lab Answer Key Wave Properties that you are looking for. Plainly put, the Waves Slinky Lab Answer Key Wave Properties is universally compatible with any devices to read. You might not be baffled to enjoy every book compilations Waves Slinky Lab Answer Key Wave Properties that we will …PhET Global. DEIB in STEM Ed. Donate. This simulation lets you see sound waves. Adjust the frequency or volume and you can see and hear how the wave changes. Move the listener around and hear what she hears.GENERAL PHYSICAL SCIENCE ANSWER SHEET - WAVES Procedure #3: Slinky Waves 4. What happens to the pulse after it hits your partner's hand? The wave mirrors its initial motion as it returns to my hand. 5. Name and define the type of wave observed. The wave moved in various directions and is therefore a transverse wave.LAB OBJECTIVE: a) to observe, investigate and calculate the basic characteristics of waves, using a coiled spring b) measure the speed and wavelength of a transverse wave c) create waves with different amplitudes Procedure: 1. Stretch the spring across the floor about 5 meters. Be sure to keep this distance unless directed.The purpose of the lab is to study the types of waves and their properties using a slinky. Procedure: 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!) Send a single wave to your partner (see ...Advanced Physics questions and answers; Part III: INTERFERENCE 1. At the same time, both you and your partner generate waves of approximately equal amplitude on the same side of the Slinky towards each other. This is called interference. Would you call this constructive or destructive interference? 2. Describe the interference of the two wave ...Question: Experiment-6 The Magnetic Field in a Slinky A solenoid is made by taking a tube and wrapping it with many turns of wire. A metal Slinky® is the same shape and will serve as our solenoid. When a current passes through the wire, a magnetic field is present inside the solenoid. Solenoids are used in electronic circuits or as electromagnets.Observe this wave and how it travels. 7. Answer the questions on the answer sheet. Slinky Wave Lab - Answer Sheet Questions: 1. What is a wave? 2. Label the diagrams below with the appropriate wave type. 3.NAME: DATE: Lab 11: Slinky Lab 4/4 Mr. Maloney Physics IV. M ULTIPLE W AVE I NTERACTION 1. With one person on each end of the slinky, have each person create one transverse wave of about the same size with a disturbance in the same direction. Describe what happens when the disturbances meet along the medium and after they meet. Sketch a picture ...

Slinky: A slinky is a long spring which is flexible and has appreciable elasticity. Pulse: A wave produced by a single disturbance in a medium is known as pulse. Velocity of pulse = Total distance travelled by pulse Total time taken. Materials Required. A slinky with flat wire made up of metal/plastic should be atleast 1 m long, a metre scale ...

1) Tribute to Scotty Kilmer2) Does tension affect the velocity? a) d = 1.2 m, count frames and find V b) d = 2.4 m, count frames and find V c) d ... Standing Waves Lab Online Purpose. The purpose of this activity is to examine the relationships between the tension in a sting, the length density of the string, the length of the string, and the standing waves that can form on the string. Theory. A standing wave is a wave where the overall pattern does not appear to move. For standing wave to ...Wave speed is the distance the wave travels in a given amount of time, such as the number of meters it travels per second. The equation that represents the wave speed is given as follows: If an ocean wave crest travels a distance of 30 m in 10 seconds, then the speed of the ocean wave is 3 m/s. On the other hand, if the crest of the ocean wave ...A slinky can easily demonstrate the two basic types of waves longitudinal and transverse Slinky Wave Lab Answer Sheet Questions 1 What is a wave. Open the file “26 Magnetic Field in Slinky‚ in the Physics with Vernier folder The complete Physics with Vernier lab manual includesWhen finishing the lab complete the Answer sheet. Results Analysis The main ... The sound wave has a resemblance of a slinky in its nature, for many reasons.Start with a Slinky for context (5 minutes) Paraphrase: Today we are going to learn about the differences between two mechanical waves. Use one or two Slinky toys to demonstrate two kinds of mechanical waves: transverse and longitudinal. Transmit energy down the Slinky or Slinkys.Slinky Wave Lab. Background. A wave can be described as an energy disturbance that travels through a medium from one location to another. Waves, simply put, are . energy moving. from one place to another. As the wave moves through the . medium (water, slinky, air), energy is being passed from one particle to the next. Waves occur around us ...Name class date Station 1 - What Can a Slinky and Some Rope Tell Us About Waves? Materials per station: 1 - Slinky 1 - 6' rope Black Tape Part I 1. A wave is any disturbance that transmits energy through matter of space. There are two main types of waves listed in your book, transverse and longitudinal waves.

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Slinky Wave Lab Background A wave can be described as an energy disturbance that travels through a medium from one location to another. Waves, simply put, are energy moving from one place to another. As the wave moves through the medium (water, slinky, air), energy is being passed from one particle to the next. Waves occur around us every day. Some common places we experience waves are in ...Slinky Wave Lab Post Lab Questions - Displaying top 8 worksheets found for this concept.. Some of the worksheets for this concept are Waves slinky lab answer key wave properties, Waves slinky lab answer key wave properties, Waves slinky lab answer key wave properties, Physics slinky lab answers, Waves slinky lab answer key wave …Two day lab dealing with transverse and longitudinal waves using a slinky. Students observe Amplitude, Wavelength, Crest, and Trough and draw where these are in the wave. Constructive & Destructive interference. Five page lab …Physics Classroom: Slinky Lab Interactive Our mobile-friendly Slinky simulation offers a host of ways to explore vibrations and wave behavior. Use the interactive tools to investigate how frequency, tension, and density affect the vibrational motion of particles and the speed of a transverse wave as it moves through a medium. Extend the Slinky® by about 1 more additional meter (you still want to be able to make a wave). Repeat Step 2. Calculate the velocities, using d/t. Make sure you accurately measure exactly how far you stretched your slinky for each wave. Complete the lab and answer the following questions.Anatomy of a Wave Worksheet Answers Objective: Identify the parts of a wave and draw your own diagrams of waves. Background: Many types of waves exist, including electromagnetic waves and mechanical waves. Waves move in different ways and have different properties. Part 1 In the diagram below, identify the parts of a wave by using the provided ...then rapidly to make waves in the Slinky increases the frequency of the waves. The symbol for frequency is f. The units for frequency are waves per second, or hertz (Hz). The velocity of a wave can be found using wavelength and frequency. The relationship is shown in the equation v = f. The amplitude of a wave is the size of the disturbance. 1. Select a lab parner and gather the lab materials. 2. On a smooth floor, stretch the slinky out between you and your partner about four meters. 3. Send a single wave to your partner. 4. Observe what happens to the wave when it reaches your partner's end.Physics questions and answers. Waves and Standing Waves Lab: Data and Analysis Section Student Name Lab Instructor initials_ Activity 1: Waves on a long slinky 1. Stretch the given long slinky Shake one end of the slinky repeatedly (while the other end is held). Observe the wave patterns generated on the slinky. 2.slinky wave lab answer.pdf - Doc Preview. Pages 3. Total views 49. No School. AA. AA 1. AdmiralDuck992. 3/11/2021. View full document. Students also studied. explore the newspaper Waves Slinky Lab Answer Key Wave Properties that you are looking for. Plainly put, the Waves Slinky Lab Answer Key Wave Properties is universally compatible with any devices to read. You might not be baffled to enjoy every book compilations Waves Slinky Lab Answer Key Wave Properties that we will …View Lab 19 - Slinky Standing Wave.docx from PHYS 341 at St. John Fisher College. Name_ Unit 8: Waves Due Date _ 16 Physics Lab 19 - Slinky Standing Waves Purpose: 1. ... 5 nodes. [1 pt.] B) If the distance between the two lines is 7 m, determine the wavelength. [1 pt.] C) Based on your answer to B, determine the speed of the wave if 15 wave ... ….

Students will produce P and S waves using a Slinky© to understand how seismic waves transfer energy as they travel through solids. All types of waves transmit energy, including beach waves, sound, light, and more. When an earthquake occurs it generates four different types of seismic waves. We will focus on two of these: …Slinky Waves Lab. You will investigate wave motion with springs. Answer questions 1-14 before beginning the lab. 1. Predict what will happen to the spring if a force is exerted on the spring (displacing it) and then the spring is returned to its initial position. Any prediction acceptable - the wave will travel along the spring. 2.Waves slinky lab answer key conceptual integrated science explorations answer key fau general physics 1 lab report sample civil engineering irrigation engineering Physics Slinky Lab Answers Physics Slinky Lab Answers Title Ebooks Physics Slinky Lab Answers Category Kindle and eBooks PDF Author unidentified. Name Date Period Lab Report Title PurposeSlinky Lab With PhET Waves Simulation. Description. Two-page (low paper use) lab with ten-point formal assessment at its conclusion. The lab should take no more than 40 minutes, including calculations and questions. This lab is easy for the students to perform and easy to grade. If absent, this lab can be done at home with little instructor …Credits, Lecture hours, Lab hours: (3:3:0) Description: This course is a continuation of ACCT 2010 and includes the exploration of accounting concepts and techniques that are essential to the administration of a business. The course primarily focuses on internal management uses of accounting information in planning, budgeting, controlling, and ...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 the location where it is shook to the ends and then back.The Physics Classroom » Physics Interactives » Waves and Sound » Slinky Lab The Slinky Lab Interactive 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.3. Begin by stretching the Slinky 3 meters (6 feet) between your partner and yourself. One person will hold each end. 4. The other person will be timing the waves on the Slinky (two complete trip, back and forth). Practice first by pulling the Slinky toward you a bit and then pushing it away. Notice that a wave travels along theSlinky Wave Modeling Lab (Sound Focus) Created by. Eric Muhlenkamp. An inquiry-based approach to teaching students about 1.) transverse and longitudinal waves, 2.) wave vocabulary (such as wavelength, amplitude and frequency) and 3.) how sounds are changed when you alter sound waves. The wave characteristics you will observe in this lab are common to all waves (water, light, sound, etc.). Use your prior knowledge and the book to fill in the following blanks, then go in the hall and perform the lab. A wave is a disturbance that moves through (propagates) through empty space or through a _____. There are two types of waves. Slinky wave lab answers, The amount of energy carried by a wave is related to amplitude. A high energy wave is characterized by high amplitude; a low energy wave by low amplitude. Materials: Slinky, meter stick, pencil. Purpose: The purpose of the lab is to study the types of waves and their properties using a slinky. Procedure: Select a lab partner and gather the lab ..., Slinky Wave Lab Pam Lydon JAN 15, 2019 Science students explore types of waves and their properties using a slinky. They investigate what happens to the frequency of waves as well as the wavelength when the vibration is increased. This is an ongoing investigation of energy that they have been studying., 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!) Send a single wave to your partner (see below). Observe what happens to the wave when it reaches your partner’s end., slinky wave lab answer.pdf - Doc Preview. Pages 3. Total views 49. No School. AA. AA 1. AdmiralDuck992. 3/11/2021. View full document. Students also studied. KNAT_parts_of_speech_practice_quiz.pdf. Middle Tennessee State University. NURS 128. View More. End of preview. Want to read all 3 pages?, This is a lab sheet to accompany a slinky lab. This lab uses slinkies to show waves from and earthquake, how they look, and how they travel. *Slinkies not provided :)..., Aug 20, 2022 - Two day lab dealing with transverse and longitudinal waves using a slinky. Students observe Amplitude, Wavelength, Crest, and Trough and draw ..., Materials: Slinky, meter stick, pencil Purpose: The purpose of the lab is to study the types of waves and their properties using a slinky. Procedure: 1. Select a lab partner and gather the lab materials. 2. 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!), The longitudinal wave is a model for sound waves in gases and liquids as well as for seismic P waves. This type of wave is also called a compression wave. Move your hand toward and away from you at the same time that you move it up and down so that it makes a circular motion. A circular motion wave moves along the slinky., NAME: DATE: Lab 11: Slinky Lab 1/4 Mr. Maloney Physics I NTRODUCTION Waves occur all over the natural world. Light, sound, radiation, water ripples, etc. all occur as wave phenomena. There are two main types of waves that are found in the physical world: transverse waves, and longitudinal waves. Wave phenomena abide by the same rules regardless of the media it is transferred through - or in ..., Question: Please answer the questions fully and dont copy what was answered earlier on a previous post please Lab 21 Part 1: Materials- Slinky, Partner Methods- A slinky was spread out 15 feet long with a partner and I sitting on the floor. Each of us was only holding a couple of coils while the rest was on the ground. Then each person sent over waves of …, Basic features of longitudinal waves demonstrated using a Slinky. Suitable for use as an instructional tool for secondary school students., Transverse Waves: To Do and Notice. Hold the Slinky between your hands—it will be horizontal and will sag. Move both of your hands up and down together. Find the lowest frequency that produces the largest motion of the Slinky using the smallest motion of your hands (this should be about one cycle per second.), Modelling A Sound Wave. 5 mins. Use a stretched Slinky to model sound waves moving through a material. When you squeeze the Slinky's coils together at one end ( compression ), this causes the coils in front of them to spread out ( expansion ). When the squeezed coils are released they spread out and squeeze the coils in front of them together., Slinky Wave Lab. Showing top 8 worksheets in the category - Slinky Wave Lab. Some of the worksheets displayed are Slinky wave lab, Lab slinkies and waves, Slinky lab simulating the motion of earthquake, Activityseismic slinky, Topic 15 vibration and waves, Sound waves, Waves slinky lab answer key wave properties, Make some waves activity wave ..., A wave can be described as a disturbance that travels through a medium from one location to another location. Consider a slinky wave as an example of a wave. When the slinky is stretched from end to end and is held at rest, it assumes a natural position known as the equilibrium or rest position., separate characteristics for light waves, or sound waves, or water ripples. Because of this we can investigate the characteristics of all waves using a coiled spring (slinky). TERMS MEDIUM: the medium is the material that a wave is transmitted through. For example sound waves are transmitted through air, and water ripples are transmitted, qSlinky Wave Lab Background A wave can be described as an energy disturbance that travels through a medium from one location to another. Waves, simply put, are energy moving from one place to another. As the wave moves through the medium (water, slinky, air), energy is being passed from one particle to the next. Waves occur around us every day., Expert Answer. Transcribed image text: 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. The disturbance can move between two locations without the matter between the locations. Transverse and Longitudinal Waves: In this ..., 2. Have students complete the Slinky Wave Lab 3. Using the PhET Simulations have students answer the questions taken from the information below. a. Waves on a String Pre/Post Lab (credit: Jackie Esler) b. Waves on a String Student Guide (credit: Jackie Esler) c. Waves on a String Student Learning Guide (credit: Kathleen Miller) d., Slinky coil can be used to demonstrate longitudinal wave.In longitudinal wave, the direction of the wave is parallel to the direction of the vibration of the..., Slinky Wave Lab Advanced - Slinky Wave Lab A wave can be described as an energy disturbance that travels through a medium from one location to another. Waves, simply put, are from one place to another. As the wave moves through the (water, slinky, air), energy is being passed from one particle to the next. Waves occur around us every day., Richards 1 Wade Richards Varona Pre-AP Physics 3/26/19 Slinky Lab Report The purpose of this lab is to simulate the different types of waves using a slinky. The key vocabulary is; Transversal waves, longitudinal waves, pulse, wavelength, frequency, and amplitude. Our hypothesis is that if waves are made of energy then we can recreate the effect using a slinky, and kinetic energy; The ..., Download it. Our Slinky Wave Simulator is now available with a Concept Checker. Do the simulation. Then follow it up with the Concept Checker. 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 ..., then rapidly to make waves in the Slinky increases the frequency of the waves. The symbol for frequency is f. The units for frequency are waves per second, or hertz (Hz). The velocity of a wave can be found using wavelength and frequency. The relationship is shown in the equation v = f. The amplitude of a wave is the size of the disturbance., ÐÏ à¡± á> þÿ „ þÿÿÿþÿÿÿx y z { | } ~ € ‚ ƒ ..., Observe this wave and how it travels. 7. Answer the questions on the answer sheet. Slinky Wave Lab - Answer Sheet Questions: 1. What is a wave? 2. Label the diagrams below with the appropriate wave type. 3., Understanding the Slinky Wave Lab. The Slinky Wave Lab is an educational experiment that allows students to understand and explore the properties of waves. It provides a hands-on experience that helps students grasp concepts such as wavelength, amplitude, frequency, and the behavior of different types of waves. , Standards A. Next Generation Science Standards (NGSS) Disciplinary Core Ideas. High School-PS4.A.i The wavelength and frequency of a wave are related to one another by the speed of travel of the wave, which depends on the type of wave and the medium through which it is passing.; High School-PS4.A.iii Waves can add or cancel one another as they cross, depending on their relative phase (i.e ..., Adjust the inclined plane so that it is at a 15-degree angle. Use the protractor to confirm the angle formed where the base of the plane meets the floor. Have a helper get ready with a stopwatch. At the top of the inclined plane hold the Slinky so that it is bent over, making an upside-down U. Let the lower part of the Slinky just barely touch ..., Physics, Waves and Sound January 4, 2016 . Beat Patterns is a simple simulation of two tuning forks, each attached to a resonant wooden box to naturally amplify the… Charges and Fields ... A simulation of the classic slinky lab. Stage Lighting Optics, Physics January 11, 2016 ..., May 4th, 2018 - A slinky can easily demonstrate the two basic types of waves Slinky Wave Lab Answer Sheet Questions 1 What is a wave 10 31 2012 11 29 43 AM''Lab 11 Slinky Answers buysms de April 30th, 2018 - Read and Download Lab 11 Slinky Answers Free Ebooks in PDF format COMPLEMENTARY AND ALTERNATIVE, 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., Slinky and the Wave Lab Transverse Waves: With a partner, find a spot on the floor and make a straight line about 1.5 meters long on the floor with a piece of tape. This is the line of equilibrium. Stretch out your slinky along this line. Place a piece of masking tape at about the middle of the slinky.