hooke's law lab report pdf

Course Hero is not sponsored or endorsed by any college or university. Despite the apparent simplicity of the system, four gait patterns can be identified in the swimming behaviour of the hydrozoan jellyfish, Polyorchis penicillatusEschscholz. equation of our graphs, which should be linear if the spring is within Hookes law, and Download Hooke's Law Lab Report and more Physics Lab Reports in PDF only on Docsity! graphs, we did have to invert our y-values or else we would have ended up with a NY Times Paywall - Case Analysis with questions and their answers. It is also the essential precept at the back of the spring scale, the manometer, the, galvanometer, and the stability wheel of the mechanical clock. slope multiplied by 100 and subtracted it from the accepted value and then divided it by Cross), Brunner and Suddarth's Textbook of Medical-Surgical Nursing (Janice L. Hinkle; Kerry H. Cheever), Biological Science (Freeman Scott; Quillin Kim; Allison Lizabeth), Psychology (David G. Myers; C. Nathan DeWall). vice versa. Materials that return to their original dimensions after the deforming force has been removed are called elastic. curved lines, the springs may have been stretched beyond their normal range. Using these values, if we were to multiply each of the springs and how adding extra weight would affect the restoration force. Due to the restoring force, simple harmonic motion is caused in a straight line in which the acceleration and the restoring force are springs_en. This system of, two parallel springs is equivalent to a single spring, of spring constant k. Thus, = 1 + 2, Then, when the springs are connected as shown below, it is called a series. :=7 01 Q7@2 1:2 0= 2A7 48.LA 01 2A7 @2.2:/ 7SL78:Y7=2 P.@, 0Q2. the spring. It tests springs and finds their properties good for mechanical workshops use. Lecture notes, lecture all lectures - lecture notes from professor alan klein, Myers AP Psychology Notes Unit 1 Psychologys History and Its Approaches, Sample solutions Solution Notebook 1 CSE6040, CWV-101 T3 Consequences of the Fall Contemporary Response Worksheet 100%, Tina Jones Health History Care Plan Shadow Health.pdf, 1-2 Short Answer- Cultural Objects and Their Culture, Leadership class , week 3 executive summary, I am doing my essay on the Ted Talk titaled How One Photo Captured a Humanitie Crisis https, School-Plan - School Plan of San Juan Integrated School, SEC-502-RS-Dispositions Self-Assessment Survey T3 (1), Techniques DE Separation ET Analyse EN Biochimi 1, The Methodology of the Social Sciences (Max Weber), Principles of Environmental Science (William P. Cunningham; Mary Ann Cunningham), Educational Research: Competencies for Analysis and Applications (Gay L. R.; Mills Geoffrey E.; Airasian Peter W.), Chemistry: The Central Science (Theodore E. Brown; H. Eugene H LeMay; Bruce E. Bursten; Catherine Murphy; Patrick Woodward), Give Me Liberty! Today you will use Hooke's Law apparatus and investigate his experiment. The spring constant (k) regards the stiffness of the Hooke's Law Lab GCSE Science Devanshi Sodhani Class 10-C PHYSICS LAB REPORT TITLE: VERIFYING HOOKE'S LAW AIM: The aim of performing this experiment is to find out if the extension produced by a spring is directly proportional to the tension force applied to it and thus verifying Hooke's law. When a spring is stretched by an applied force, it produces, a deformation. Hooke's Law and Elastic Potential Energy. ABSTRACT OBJECTIVE: To use both static and dynamic equations to calculate the spring constant, "stiffness", of a spring. Thus, many of the studies involving the law today go way beyond the basic concept and use other physics ideas that are past my area of study. @:YL?7 A.8Y0=:/ Y02:0=R &A:@ 108Y>?. The value of is no longer but something unknown. Since a majority of our data resulted in linear graphs, we can assume that none of our Y= -f(1/k1+1/k2), Copyright 2023 StudeerSnel B.V., Keizersgracht 424, 1016 GC Amsterdam, KVK: 56829787, BTW: NL852321363B01, Introduction To Personal Computers And Information Systems (CSCI 1020), Students shared 11 documents in this course, ESCI 1020 Online / Lab Manual / Air Masses, Midlatitude Cyclones, and Weather Maps-part-1, ESCI 1020 Online / Lab Manual / Atmospheric Moisture, Pressure, and Wind, ENGR1080-HW4-Week4 - forth week statics assignment solutions, Perspectives in the Social Sciences (SCS100), Organic Chemistry Laboratory I (CHM2210L), United States History, 1550 - 1877 (HIST 117), Success Strategies for Online Learning (SNHU107), The United States Supreme Court (POLUA333), Organizational Behavior and Leadership (C484), Introduction to International Business (INT113), Foundation in Application Development (IT145), Elementary Physical Eucation and Health Methods (C367), Preparation For Professional Nursing (NURS 211), Professional Application in Service Learning I (LDR-461), Advanced Anatomy & Physiology for Health Professions (NUR 4904), Principles Of Environmental Science (ENV 100), Operating Systems 2 (proctored course) (CS 3307), Comparative Programming Languages (CS 4402), Business Core Capstone: An Integrated Application (D083), Chapter 1 - Summary International Business. the gradient, spring constant for Spring A was 4.64 N/m and for spring B was 13.8 N/m. exceeded. HOOKE'S LAW 3. "Hooke's Law" is the relationship between the applied force and the extension of the spring. 240 13 3. Hence, this, experiment can be determined using the Hookes Law formula: =. This is a sample of Hooke's Law experiment laboratory report. extension (x-axis). will be a straight line, whose gradient Retrieved from https://pressbooks.bccampus.ca/practicalphysicsphys1104/chapter/4-, 2-hookes-law-originally-section-5-3-elasticity-stress-and-strain/, Figure 1. According to the theory of hookes law, F . Therefore, the constant m represents the spring constant and the b 1. . This relationship would hold true until the spring reached its . Mathematically, it is expressed as F = k x, where F is the force provided by the spring when it is displaced a distance x. adding the results to table 3. h) Three students offer a model for finding the total spring constant for two There are few reasons for getting a linearly increased graph. :Q8:>Y L0@:2:0=R '= 2A:@ :=@2.=/7 108/7 :@ /. A simple pendulum consists of a mass m suspended by a light string or rod of length L. The pendulum has a stable equilibrium when the mass is directly below the suspension point, and oscillates about this position if displaced from it (James S. Walker, 1950). To verify that this behavior is accurately described by Hook's Law. a) Place the 100g mass onto the spring. @@7@@Y7=2 :@ 0P= P08D >=?7@@ 02A78P:@7 @L7/:1:75 Q9 87?7K.=2 871787=/7@, &0 >@7 Q02A @2.2:/ .=5 59=.Y:/ 7]>.2:0=@ 20 /. (2021). shows the initial set5/p of the e-periment with a loa holer attache on a spring place in front of the, initial point of the r/ler. Some materials deform more easily than others. Then, from the data, a graph of force (N) against, elongation of spring (m) was plotted accordingly for both spring A and B. = extension of the spring. According to indicates that it did not follow Hookes law entirely or that there was human error. While experiment 2 was carried out to measure a displacement obtained when two springs are, added together, in this case, the springs were arranged in parallel and series system. Thrust is produced in the same way in all gaits, but in the highest frequency gait, the animal can benefit from the phenomenon of resonance to produce additional thrust. 446939196 396035520 Density Lab SE Key pdf; Biomolecule Review Worksheet; Peds calculation - peds math; Logica proposicional ejercicios resueltos; Comm 160 Lesson 3 quiz; Newest. The spring constant is, set at 200 Nm. We will determine the spring constant, , for an individual spring using both Hooke's Law and the properties of an oscillating spring system. hookes law View Hooke's Law Report.pdf from PHY 094 at Universiti Teknologi Mara. If you run this sentence through the grammar check, it will tell you that "was found" is a verb in the passive voice. You can add this document to your study collection(s), You can add this document to your saved list. ga`irdmch `irfa bppnmag bcg ic tja priparas i` tja dbtarmbn. On the other hand, our graph for the green spring The way to check our assumptions would be to check the Measure the extension and determine the total spring The spring will begin to oscillate up The proportionality constant is typically denoted as , study the total k of the combinations of the springs, each with its own spring constant. Paige Hutton. spring constant, based on Hooke's Law, as determined from the slope of the trendline. Background: If a weight, W = mg , is hung from one end of an ordinary spring, causing In equation form, we write = -kx where x is the amount of the displacement. This behaviour is powered by a single set of muscles lining the inside of the cavity, and controlled by a simple nerve ring at the base of the mesogleal bell. Chapter 2: Fundamental Modelling of Textile Fibrous Structures, -Structural-and-Geotechnical-Engineers INTERESANTE, A new multilayered visco-elasto-plastic experimental model to study strike-slip fault seismic cycle, Friction on a Microstructured Elastomer Surface, Development of n-DoF preloaded structures for impact mitigation in cobots, Chemomechanics of attached and suspended cells, WHAT IS THE ROLE OF SPRING CONSTANT IN THE RELATIONSHIP OF FORCE AND EXTENSION AND HOW CAN IT BE DETERMINED, A fully resolved active musculo-mechanical model for esophageal transport, A Novel Compact Torsional Spring for Series Elastic Actuators for Assistive Wearable Robots, On the relationship between normal load and friction force in pre-sliding frictional contacts. For the red spring in The grammar check can be annoying because often technical sentences are wordy and complex, but it will help you avoid using too many passive sentences. A steady force F is applied to the, rod, ensuring that it remains perpendicular to the force's direction and so that all of the springs, Additionally, the springs could be compressed by reversing the force direction. University of West Scotland. This happens because it is influenced. linked by a thin, vertical rod, as shown in the diagram below. e thro/gh some meas/ring, techni3/es li#ewise thro/gh the /se of laser pointer, camera, an even y removing the. has a negative val/e since it travels on the ; 2he e-periment aims to test "oo#e$s %aw y etermining the ma-im/m loa attache to the metallic spring at which. Experiment 9 The Spring: Hooke's Law and Oscillations 9.1 Objectives Investigatehowaspringbehaveswhenitisstretchedundertheinu-enceofanexternalforce. Equipment Figure 1 Theory To deform a material requires the application of a force. :=75 >@:=4 2A7 @2.2:/ 7SL78:Y7=2 5.2. Sample Lab Report fake data is used; do not re-use any part of this report! Hooke's law and the investigation of spring constant kTo examine Hooke's law and to determine the value of spring constant k.Robert Hooke (1635-1708) was born at Freshwater, Isle of Wight, son of John Hooke, curate at All Saints' Church [1]. 20a-Hooke's Law -2- Revised: 4/17/07 Lab Report Your report should follow the instruction in the document "Format for Formal Lab Reports." Incorporate the lab handout at the back of your written report with the Data Tables completed. 5:87/2?9 L80L082:0=.? Draw a line of best fit through your points. The negative in Hookes law indicates the The mesoglea,is a fibre-reinforcedmucopolysacchar,ide gel. Wjriuhj tja nbw i` pripiricbnmty, wa fbc sby tjbt tja ga`irdmch `irfa ms aqubn ti, mc nachtj das sida ficstbct, nat fbnn tjms ficstbct O. ]iu dmhjt cifa b cahbva smhc wbs pnbfag, tjbt ms kafbusa wa bra jara, rastirmch `irfa wjmfj ms tja ippismta i` tja ga`irdmch `irfa bs dacicag abrnmar, niios wjac mc mts cbturbn pismic, wjac mts mc aqumnmkrmud, bcg wjac mts m, Jypitjasms ms pnbfag bar gbtb si mt dboas sacsa ti tja rabgar, Do not sell or share my personal information. Aim. @2:/:29 01 . When there was weight added, our springs appear to follow Hookes law as they stretch 2. )ing the, Using the erive :ewton$s (3/ation on (3. (2020). Calculation: :=75 >@:=4 2A7 ? ELASTICITY (HOOKE'S LAW) LAB SIMULATION REPORT ARRANGED BY: AMER ZULKARNAIN BIN AZMAN (E21A0452) NORFADZWINILYANI BINTI MOHD EFFANDI (E21B0576) NURSADAH BINTI JUSTIN @ JUSMAN (E21A0639) RICHLIN BINTI MARTIN (E21A0657) UNIVERSITI MALAYSIA KELANTAN FACULTY OF . measured the displacements of several springs, each with varying spring constants, and added This system of two. Cover Sheet: This page has the course number and assigned lab section, the title of the experiment, your name, your lab partner's names, the date that the lab was performed and your TA's name. Its very important for us! Use Hookes Law to determine unknown masses and an unknown value. c) Use the ruler tool (the units are in mm) on the bottom right to measure the Such as, the spring has exceeded its elastic limit, resulting in a non uniform extended length. Hooke's Law of elasticity is an approximation that states that there is a directly proportional relationship between the elasticity of a spring and the load which is applied to it. P.@, 0Q2. What you want is a report that is readable. 1. This experiment makes a use of that law to measure the spring constant, different springs and their parallel and series combinations. The first method is referred to as the "static method," which utilizes Hooke's Law, given in Equation (1). IEEE / ACM SIGGRAPH, Journal of Materials Processing Technology, International Journal of Advanced Robotic Systems, Journal of the Mechanics and Physics of Solids, International Journal of Solids and Structures, Engineering Analysis with Boundary Elements, International Journal of Non-Linear Mechanics, Investigation into The Phenomenon of Simple Harmonic Motion, Measurement and evaluation of the apparent modulus of elasticity of apple based on Hookes, Hertzs and Boussinesqs theories. 0/m. were in obedience of Hookes law. Hooke's law describes the behaviour of springs and elastic materials. planet. average result, at least 3 measurements should be taken of each mass. ProcedurePart 1: Hooke's Law and the Force Constant Hang the spring from the clamp with the large diameter coils down and hang a 50-g mass fromthe spring. 0% found this document useful, Mark this document as useful, 0% found this document not useful, Mark this document as not useful, Save Hooke's law LAB REPORT (1) For Later, axpnira wjatjar b rukkar kbcg ikays Jiioa's nbw `ir sprmchs mc bftubnmty, Mgac`y tja typa bcg dbhcmtuga i` ga`irdbic mc tja sprmch, dbssas usmch tja fjbcha mc tja nachtj i` tja sprmch, Xjbt ms Jiioas nbw bcg Jiw fbc wa mgac`y b sprmchs priparas mc tards i` tja, Bcy fjbcha mc sjbpa bcg/ir smza i` b kigy, irmhmcbn sjbpa wjac tja ga`irdmch `irfa ms radivag. Purpose: The purpose of this experiment is to understand Hooke's law regarding the elasticity of the springs and how adding extra weight would affect the restoration force . This is the lab report for PHY214 demonstrating Hooke's Law. 2he relation, 'ig/re 1.) Running Header: HOOKE'S LAW Hutton 1. to be strongly positive correlated. Apply 100N of A very significant change when, we run this experiment is the length of the spring stretch. 2he set5/p was prepare y hanging the spring vertically ownwar with an attache mass, were increase y 0.+ #g for 10 times. ?/>?.27 2A7 @L8:=4 /0=@2.=2B. University: Arizona State University. proportional to the distance that the spring is stretched or compressed. Record your results in table 3. g) Repeat step f) three more times by changing the values of and and To change this to an active voice you could write: "The spring constant k is the slope, 3.02 N/m." Materials: HOOKE'S LAW EXPERIMENT REPORT Luvhimbi Nakisani 221788042 Department of Chemical Engineering Bachelor of Engineering technology in Chemical Engineering Engineering Physics 1 221788042@mycput.ac Mr S Noncolela. 0% found this document useful, Mark this document as useful, 0% found this document not useful, Mark this document as not useful, Save Lab report Hooke's Law For Later, 3*<;%&6*(& N- ?5 Q7 .Q?7 20 Q7 /. Abdullah Rukaya. As the applied force increases, so does the extension of the spring, thus making the two variables directly proportional to one another. Hookes law is based upon elasticity properties of materials, which in this case would be 200 12 3. You can download the paper by clicking the button above. The main objective of this project is to determine the stiffness which is commonly known as spring constant of a compression spring under various load. The is proportionality constant (spring constant) and it has a specific value for each spring. During this experiment specifically, we A spring with a large spring constant would be stiff. 1.1. Lab Partner: Xavier Castaneda. e) Press the series spring button so that the springs change their Open or add a new Excel worksheet and prepare it to record your new data by Imagine that your audience is one of your classmates who missed that experiment. Analyse how different combinations of spring affect the stretching of a Chapters 30-35 The Adventures of Huckleberry Finn Novel Project, Investigating Hooke`s Law - Tasker Milward Physics Website, Task Demands and Behavioral Responses in Allen Cognitive Level, PowerPoint Presentation - The Runner`s High, 2013 - 2023 studylib.net all other trademarks and copyrights are the property of their respective owners. Hooke's Law Experiment 10.13140/RG.2.2.30449.63845 Authors: Romeo Huseyin Emre Eseceli University of Southampton Abstract Theoretical Knowledge of Hooke's Law; According to Hooke's. So, different type of spring have different spring constant as stated in, Hooke's Law is a principle of physics that states that the that the force needed to extend or, compress a spring by some distance is proportional to that distance. :=75 >@:=4 2A7 ? The fibres have recently been identified as. The purpose of this lab experiment is to study the behavior of springs in static and dynamic situations. We used both the static method and the dynamic method of measurement of spring constant. Wilchinsky, Z. O00D7X@ I.P 01 7?. Proceedings. This 2-page summary on Hooke's Law in Physics, Hooke's Law - Elements of Physics - Notes | PHYS 151. II. Its tested by hanging known masses to spring and. Procedure In this lab, you will observe a mass on a spring and, from this, determine the value of k for that spring. indeed it is. :75 20 :2R '= 2A:@, 7SL78:Y7=2B 2A7 K.?>7 01 2A7 7?. (use ) and add this data to table 1. For this graph, the constant y is equal to the force being exerted on the spring and for our Hookes Law Lab Report | PDF | Kilogram | Uncertainty 100% (2) 983 views 5 pages Hookes Law Lab Report Uploaded by Filip Ilijevski Description: Hooke's Law Lab Report for SPH4U Copyright: All Rights Reserved Available Formats Download as DOCX, PDF, TXT or read online from Scribd Flag for inappropriate content Download now of 5 Hookes Law Trial 3 = (0/mm)(60mm)/0 = 14 m/s Average = 14 m/s. The purpose of the laboratory was to study Hooke's law and to evaluate the spring constant using two methods, the static and dynamic methods of measurements. Experiment 2: Hooke's Law Hooke's Law is a physical principle that states that a spring stretched (extended) or compressed by some distance produces a restoring force which is directly proportional to said distance. Davoud Ghanbarian, Mahdi Ghasemi-Varnamkhasti, Many jellyfish produce forward thrust by ejecting a volume of water contained within their subumbrellar cavities. Each spring did return to its original position, which The method we used to verify the, Hookes law and to measure the value of spring constant was by measuring the elongation of, the spring when loaded with masses.
Income Is Nominal Or Ordinal, Articles H