Marble ramp lab report.
In this lab, data was collected by recording a video of rolling a marble down a ramp and up a ramp and on a level surface. After recording the video of the three trials, the tracker program was used to determine the position, or distance, relative to the time. Physics 31210 Lab 2 PROJECTILE MOTION Introduction: By rolling a steel marble down a ramp and measuring its horizontal range, you can calculate the marble's launch velocity. Physics Lab Report (Projectile Motion)physakins. Projectile from a Height. REASON: The x motion is independent of the y motion for projectiles. 1. Use a book to angle your paper towel tube to make a ramp near the edge of the table. Place a marble at the very edge of the table, right next to an open end of the tube. If you have trouble with the marble rolling away from the edge, use a piece of aluminum foil to make a slightly rough surface for it to lie on. 2. Photogate, Ramp, Labquest, Rulers, Marble, We will construct the Ramp, and set up the photogate, and perform the experiment to get the data. Then we will upload our data to our individual Weeblys. During your experiment: · Data · Data table- include several trials · Picture of your lab set up1. Make a ramp by elevating one end on a book. 2. Tape the marker perpendicular to the ramp about 2 car lengths from the end of the ruler. 3. Use the clay to make a snowman type figure. 4. Flatten the bottom and gently sit it on the hood of the car. 5. Position the car at the top of the ramp and allow it to roll down to collide with the pencil.Because the marble gains speed as it travels down the ramp, it has acceleration. Although the marble only has a change in speed and not direction, we can still determine that acceleration occurred, due to the definition. This relates to the lab results, because as we determined the marble gained speed as it advanced down the ramp.Place the photogate 30cm from the end of the ramp, release the car and record the time through the photogate. Record values in the table on the lab report. The program does the velocity calculation (in m/sec) for you; record it on the report. Repeat this, but now move the photogate 40 cm from the end. Then 50 cm, . . . Questions: Answer on lab ... In the lab, powdered calcium carbonate reacts much faster with dilute hydrochloric acid than if the same mass was present as lumps of marble or limestone. The catalytic decomposition of hydrogen peroxide. This is another familiar lab reaction. Solid manganese(IV) oxide is often used as the catalyst. Conservation of Momentum: Marble Collisions Student Version In this lab you will roll a marble down a ramp, and at the bottom of the ramp the marble will collide with another marble. Velocity of the marble can range from 3 m/s to 9 m/s. Place another small marble at one end of the track.OSHA Instruction TED 01-00-015. The OSHA Technical Manual (OTM) provides technical information about workplace hazards and controls to OSHA’s Compliance Safety and Health Officers (CSHOs). This information supports OSHA’s enforcement and outreach activities to assure safe and healthful working conditions for working men and women. Water Quality Indicators Water quality is often described by the concentration of different chemicals of interest. Determining whether water quality is “good” or “bad” depends on the purpose of the assessment—for example, water with naturally elevated concentrations of some metals may not be suitable for drinking water, but may be suitable for industrial uses. Lab Report - Proportionality. Homework Finish Lab Report - Make sure your report has a procedure, a data table, a graph (probably of your average data at each distance), and an analysis of the data. Try to find the relationship between compression distance and launch distance. Resources The University of Utah on Instagram: “Since Arts Bash can't ... Transcribed image text: CONSERVATION OF ENERGY LAB In this experiment, you will use a ramp and marble to investigate the conservation of mechanical energy PROCEDURE 1. Clamp the ramp to a lab table and carefully measure h, and h2 as shown in the diagram. Record your measurements in meters in Data Table 1 (1 m = 100 cm) 2.Ramp and Marble C-clamp Photogate 2 Figure 1 Apparatus Draw a labeled diagram of the setup and list all other equipment, with any identifying numbers. LabPro interface box 1” diameter stainless steel marble ramp and supports # (record the identifying number!) 2 Pasco Photogates 8½” × 11” sheet of paper carbon paper meter stick Oct 17, 2021 · Marble momentum lab Accompanying this report is a Lab Handout that states what the instructors expected as far as the scope of the experiment and the depth and organization of the report. 26-31! October 19, 2020. time and velocity vs. Look for the camera icon which gives you a close … Oct 04, 2021 · Projectile motion lab report conclusion. For the first experiment roll the same marble down the ramp at three different treatments (trt) this would the height of your books. Measure the distance that the cup moved and record in the EDB next to the trial number, graph it and form a conclusion. ... Lab report including graphs made using LoggerPro. Remember that you can cut and paste a ...Circle the name of the person to whose report ... Lab 1 Page 2 of 18 ... to make it accelerate on a level ramp. In this investigation you will examine 4. Roll the marble across the ramp by giving it a 'small' push. Use this to gage how the marble will travel down the ramp. Note where it hits the floor. 5. Place the ramp under one textbook so that the marble will be accelerating down the ramp. Be sure to set up your ramp so that the marble can roll off the bench briefly before falling.OSHA Instruction TED 01-00-015. The OSHA Technical Manual (OTM) provides technical information about workplace hazards and controls to OSHA’s Compliance Safety and Health Officers (CSHOs). This information supports OSHA’s enforcement and outreach activities to assure safe and healthful working conditions for working men and women. 1. Make a ramp by elevating one end on a book. 2. Tape the marker perpendicular to the ramp about 2 car lengths from the end of the ruler. 3. Use the clay to make a snowman type figure. 4. Flatten the bottom and gently sit it on the hood of the car. 5. Position the car at the top of the ramp and allow it to roll down to collide with the pencil.2,458 Likes, 121 Comments - University of South Carolina (@uofsc) on Instagram: “Do you know a future Gamecock thinking about #GoingGarnet? 🎉 ••• Tag them to make sure they apply…” Nov 01, 2021 · Physics Lab Steps. For this physics lab, you will need: A marble ; A smooth table ; Materials to create a sturdy ramp (for example, a plank of wood and some books) object's motion. Our goal in this lab is to determine the acceleration of a marble rolling down a ramp and to explore how the marble's position, velocity, and acceleration change with time. Procedure: Record the time required for a marble to roll set distances down a 1.83 m aluminum angle ramp elevated by 3 textbooks.Sketch your setup in your lab book with the dimensions labeled. Question 1 Phenomena Test 1: Size of ball a) Prediction: If we roll two different sized balls down the inclined plane at the same time,Ramp-Forces and Motion Lab. Pre-Lab Quiz; Lab Document; Simulations; Step 1: Pre-Lab Quiz . Step 2: Lab Documents Download Document(Word Version) Safety tip: Keep your fingers away from the ramp when the car is rolling. Especially, keep your hands away from the bottom of the ramp until the car stops. B Testing your hypothesis It is difficult to know for sure that the car is going faster (or not) without making measurements. Set up the car and ramp with two photogates. The photogatesEvolution Video Quizzes. Evolution is the key to understanding how all life on Earth is related. Discover how phylogenetic trees illustrate the connections between a vast array of species. Graphs and Ramps The Graphs and Ramps Interactive is a simulation in which learners build a ramp along which a ball will roll. The goal is to build the ramp with the correct heights and incline angles such that the roling ball moves with a motion that matches a provided position-time or velocity-time graph (the target graph).If the graphs of the ball's motion do not match the target graphs ... Examine the rock outcrops shown in Figure 2.23 and determine whether each is igneous, sedimentary, or metamorphic. Match each of the metamorphic rocks listed below with one possible parent rock from the following list: bituminous coal, shale, limestone, slate, granite. sandstone. Nice work! Lab 5: Conservation of Energy Lab Type: analysis Please hand over the lab report before you leave and use pens instead of pencils. Introduction In this lab we will use data from a previous experiment (a steel marble starts from rest and rolls down an aluminum track and then onto the floor, see figure 1) to test the following hypothesis:MOMENTUM MARBLE LAB - Each person Write an ENTIRE Lab Report (all 10 sections) you may work with up to 2 others MATERIALS- 5 marbles, ruler, pen / pencil paper - PROCEDURE 1. Put the ruler on a flat surface. 2. Place 1 marble on the ruler. 3. Roll a second marble down the groove of the ruler so it hits the first one. 4. Repeat this test. 5. Photogate, Ramp, Labquest, Rulers, Marble, We will construct the Ramp, and set up the photogate, and perform the experiment to get the data. Then we will upload our data to our individual Weeblys. During your experiment: · Data · Data table- include several trials · Picture of your lab set up To tantalise you I can report that is took 14.3 seconds to drain 3 L of water through a 2 mm orifice, and 2.8 s for a 6.5 mm hole. But it is not the total time that is important - it is the rate of emptying, and the shape of the rate/time graph, and the analysis and discussion afterwards. Conservation of Energy Lab IPC CONSERVATION OF ENERGY LAB In this experiment, you will use a ramp and marble to investigate the conservation of mechanical energy. PROCEDURE 1. Clamp the ramp to a lab table and carefully measure h 1, and h 2 as shown in the diagram. Record your measurements in meters in Data Table 1 (1 m = 100 cm). 2.tabletop a given distance. Once the marble stops, it is out of energy. The energy it originally possessed has done work upon the plow. Auxiliary Materials: None Scoring Rubric: E4. Marble Energy Lab Included, labeled and organized all parts of the lab report.1. Make a ramp by elevating one end on a book. 2. Tape the marker perpendicular to the ramp about 2 car lengths from the end of the ruler. 3. Use the clay to make a snowman type figure. 4. Flatten the bottom and gently sit it on the hood of the car. 5. Position the car at the top of the ramp and allow it to roll down to collide with the pencil. Jul 13, 2021 · Today we are going to look at Newton's First Law of Motion called Inertia. This law states that a still object will stay still unless a force pushes or pulls it. A moving object will stay moving unless a force pushes or pulls it. Gravity and friction are forces that constantly push and pull the "stuff" on earth. Classzone.com has been retired and is no longer accessible. Because of the age of this application, the programs supported by this platform are not able to benefit from the technological improvements in accessibility, security, and HMTL5 (non-Flash) that we have incorporated into our newer programs and platforms in recent years. Section 3 Free Fall: Practice Problems A construction worker accidentally drops a brick from a high scaffold. a.:KDWLVWKHYHORFLW\RIWKHEULFNDIWHU V" What forces were acting on the marble as it traveled down the ramp?-While traveling down the ramp the forces of gravity were acting on the marble. 4. Did the measured acceleration was about the same for the three (or four) sections of the experiment (Release point to 1st marking, to 2nd marking, etc) ?Search: Conservation Of Linear Momentum Lab Report Conclusion PART IIIB: Data Recording – 13 mm Ball 1. Place the smaller ball (13 mm) in the release mechanism. Adjust the position of the release mechanism so the bottom of the ball is 1.50 meters above the timing pad. Bookmark File PDF Projectile Motion Lab Report Launch Angle Answer Projectile Motion Lab Report Launch Angle ... marble down a ramp and measuring its horizontal range, you can calculate the marble's launch velocity. To confirm this velocity with an independent measurement, you can use a photogate. Page 3/4.a = gsinθ. where θ is the angle of the ramp and g = 9.8 m/s2. The derivation of this equation will be shown in a future lesson. Use this acceleration in the 2nd kinematics equation to calculate the time it "should" take for the car to roll 0.70 m. Record your calculations for each angle you used in the lab.Conservation of Momentum: Marble Collisions Student Version In this lab you will roll a marble down a ramp, and at the bottom of the ramp the marble will collide with another marble. Velocity of the marble can range from 3 m/s to 9 m/s. Place another small marble at one end of the track.All labs should yield meaningful information, and this new information should always prompt new questions. This marble ramp lab was no exception. 1) The equation found using conservation of energy principles revealed that the square of the final velocity was directly proportional to the starting height.Physics 31210 Lab 2 PROJECTILE MOTION Introduction: By rolling a steel marble down a ramp and measuring its horizontal range, you can calculate the marble's launch velocity. Physics Lab Report (Projectile Motion)physakins. Projectile from a Height. REASON: The x motion is independent of the y motion for projectiles. Conservation of Momentum: Marble Collisions Student Version In this lab you will roll a marble down a ramp, and at the bottom of the ramp the marble will collide with another marble. Velocity of the marble can range from 3 m/s to 9 m/s. Place another small marble at one end of the track.Examine the rock outcrops shown in Figure 2.23 and determine whether each is igneous, sedimentary, or metamorphic. Match each of the metamorphic rocks listed below with one possible parent rock from the following list: bituminous coal, shale, limestone, slate, granite. sandstone. Nice work! Hypothesis. Experiment 1: When the tallness is raised. the marble will hold more clip to go on going at its initial speed while the gravitative force is moving upon it. increasing the distance the marble travels while falling. Experiment 2: The scope of the projectile will diminish as the angle launched moves off from 45 grades.Set up a ramp with the ruler and 2 or 3 books; affix in place with tape. Place a meter stick along the path of the small marble (aiming small marble toward middle of the room). Start you stopwatch when the marble gets to the meter stick and stop it as it passes the end of it. DO NOT LET THE MARBLE FALL OFF THE TABLE DURING THIS PART (you will loseSep 26, 2014 · Purpose. The purpose of this lab is to use two different methods to obtain the five kinematic quantities of displacement, initial velocity, time, final velocity, and acceleration of a cart rolling down a ramp. The first method involved measuring the distance and time using traditional methods, and the second method utilized a ticker tape timer ... To tantalise you I can report that is took 14.3 seconds to drain 3 L of water through a 2 mm orifice, and 2.8 s for a 6.5 mm hole. But it is not the total time that is important - it is the rate of emptying, and the shape of the rate/time graph, and the analysis and discussion afterwards. Physics lab report-motion Pages: 3 (743 words) Simple Harmonic Motion Lab Report Pages: 2 (368 words) Damped Harmonic Motion Lab Report Pages: 1 (259 words) Macromolecules lab bio 1 lab Pages: 2 (520 words) Why Lab Procedures and Practice Must Be Communicated in a Lab? Pages: 12 (3486 words)In this lab, data was collected by recording a video of rolling a marble down a ramp and up a ramp and on a level surface. After recording the video of the three trials, the tracker program was used to determine the position, or distance, relative to the time. "Pre-Lab Questions" 4"In one of your experiments, you will roll a marble down a ramp to provide an initial horizontal velocity. Suppose you start the marble at rest ( v ˳= 0 m/s) and it travels a distance of, d, down; the ramp. Use 1-D kinematics to predict the velocity of the ball (vᶠ) at the bottom of the ramp.Lab Report Energy It's time to complete your Lab Report. Save the lab to your computer with the correct unit number, lab name, and your name at the end of the file name (e.g., U1_ Lab_Energy_Alice_Jones.doc). Introduction 1. What was the purpose of the experiment? Type your answer here: 2.4. Roll the marble across the ramp by giving it a ‘small’ push. Use this to gage how the marble will travel down the ramp. Note where it hits the floor. 5. Place the ramp under one textbook so that the marble will be accelerating down the ramp. Be sure to set up your ramp so that the marble can roll off the bench briefly before falling. Lab Exercise 2 Microscopy Cell Structure Textbook Reference: See Chapter 3 for Cell Structure. What you need to be able to do on the exam after completing this lab exercise: Be able to name the parts of the microscope and give the function of each part. Be able to explain the proper usage and care of the microscope. 4. Roll the marble across the ramp by giving it a ‘small’ push. Use this to gage how the marble will travel down the ramp. Note where it hits the floor. 5. Place the ramp under one textbook so that the marble will be accelerating down the ramp. Be sure to set up your ramp so that the marble can roll off the bench briefly before falling. Ramp & Marble Lab Review. 2 years ago by . Alain Harvey. 75% average accuracy. 161 plays. 9th - 12th grade . Physics. 1 Save Share Copy and Edit Edit. ... Report an issue . Q. What information is needed to determine how fast a truck is traveling? answer choices . direction and mass . distance and time .Ramp & Marble Lab Review. 2 years ago by . Alain Harvey. 75% average accuracy. 161 plays. 9th - 12th grade . Physics. ... Report an issue . Q. Find the mean of these ... A simple lab to test how the speed of a marble changes as the height/slope of a ramp is increased. As students raise the ramp, they will notice the speed of the marble increases. Students will need to calculate their results, create a distance-time graph to represent their data, and write a conclusion of their results.Lab 5: Conservation of Energy Lab Type: analysis Please hand over the lab report before you leave and use pens instead of pencils. Introduction In this lab we will use data from a previous experiment (a steel marble starts from rest and rolls down an aluminum track and then onto the floor, see figure 1) to test the following hypothesis:In this lab, data was collected by recording a video of rolling a marble down a ramp and up a ramp and on a level surface. After recording the video of the three trials, the tracker program was used to determine the position, or distance, relative to the time. The experiment is about throwing marbles through a metallic thin ramp and record the time it takes. If we see the results in the table, the time it takes the marble to go to the other end, has sense with the distance that the ball has to cover, if we look the first space, 0,03 m, the ball doesn't go over the 0,70 second in each trial, this is a coherent and predictable result.Academia.edu - Share researchSection 3 Free Fall: Practice Problems A construction worker accidentally drops a brick from a high scaffold. a.:KDWLVWKHYHORFLW\RIWKHEULFNDIWHU V" In this lab, data was collected by recording a video of rolling a marble down a ramp and up a ramp and on a level surface. After recording the video of the three trials, the tracker program was used to determine the position, or distance, relative to the time. Adjust the height of the track and enter it in the Ramp Height block. The new ramp angle will be calculated automatically. Place the cart at the top of the track. Click Record for that row and release the cart. The current ramp angle will be recorded for you, and Sensor Status will change to "Recording" Catch the cart at the bottom of the ramp.Academia.edu - Share research