LAB FACULTY OF MECHANICAL AND 1 MANUFACTURING ENGINEERING TECHNOLOGY UNIVERSITI TEKNIKAL MALAYSIA MELAKA BMMA 1333 STATICS LAB SHEET 1 EQUILIBRIUM OF FORCES FOR 3 POINT LOAD Learning Outcome (LO): Program Outcome: LO2 Construct statics experiments to recognize the engineering mechanics of statics principles. PO4 Conduct investigations of broadly-defined problems;locate, search and select relevant data from codes, data bases and literature, design and conduct experiments to provide valid Synopsis: conclusions. This lab activity will enrich students’ knowledge on static. Students are exposed to the concept of equilibrium of Related Lecture’s Topic: Prepared by: Approved by LM/SLM/HO D forces for 3 point load. 1. Force vectors, vector operations & addition coplanar forces 2. Equilibrium of a particle, the free-body diagram & coplanar force systems Ts Mohammad Khalid Bin Wahid Dat 26 October 2020 e: Dat e QMS : REVISION RECORDS Revisio n No Description Date (DD/MM/YY ) STUDENT’S NAME Prepared by : Approved by LM/SLM/HOD: MATRIX NO: S1. S2. S3. S4. S5. PROGRAMME YEAR INSTRUCTION 1. Laboratory Report shall be in ENGLISH . 2. Submit your report ONCE only in a SINGLE file. 3. Submit your report ONLINE. 4. This lab report/activity accounts for 5% of the total marks for the course. 1.0 INTRODUCTION / THEORY INTRODUCTION This lab work topic is on the equilibrium of forces for 3 point load. The data of the calculated angle (theory) and measured angle (experiment) will be compared. OBJECTIVES 1. To investigate the conditions required to achieve static equilibrium. 2. To prove the force calculation method using the geometrical method and resolution of forces method. 3. To compare experimentally obtained results with theoretical calculations. PART A: THEORETICAL WORK TASK 1: FIND THE THEORIES The theory related to this experiment are: 1. Calculation of equilibrium of force using the geometrical methods which are triangle method and parallelogram law. 2. The calculation for force equilibrium using the resolution of forces method. 3. Method and equation to calculate random error and systematic error. *Please refer to lecture note. TASK 1: Write the related theory here TASK 2: DRAW THE FREE BODY DIAGRAM The experiment setup is shown in Figure 1 below. Both weight m 1 and weight m2 are 250g. Therefore, the angle θ1 is equal to angle θ2 . Ignore the weight and friction at the pulleys and cord. Draw the FBD at point A in the box below. Figure 1: Experiment Setup TASK 2: Draw the FBD here: TASK 3: Derive the equations and calculate the angles 1. Base on the FBD above, derive the equation of angle θ1 and angle θ2 . 2. Record the calculated in Table 1. Start the calculation with 50 g (m 3) Calculate for five different weight in increment order. TASK 3: Derive the equation here TASK 3: Record your calculations in Table 1 Table 1: Theoretical data Load 3, m3 (g) Angle 1, θ1 (°) Angle 2, θ2 (°) PART B: EXPERIMENTAL WORK TASK 4: List of Equipment The list of equipment is illustrated in Figure 2 as followed:1. 2. 3. 6. LS-13101 Equilibrium of Forces Apparatus Magnetic Pulley x 2 Magnetic protractor x 1 Weight hanger and set of weights (500g) x 3 Figure 2: LS13101 Equiplibrium of Forces Apparatus LEGEND A - Mounting Board, B – Protractor, C - Pulley with Magnetic Base, D – Weight 2.0 WORK PROCESS/ PROCEDURES/ METHODOLOGY TASK 5: WRITE THE PROCEDURE OF EXPERIMENT Figure 1 3-point load experimental setup 3.0 RESULTS TASK 6: Record the experiment data in Table 2 Load 1, m1 = ________ Load 2, m2 = ________ Table 2: Experiment data Load 3, m3 (g) Angle 1, θ1 (°) Angle 2, θ2 (°) TASK 7: Compare theory values with experiment values Compare calculated values with the one measured from the experiment. Calculate the error between both results. TASK 7: Show the calculation sample of error TASK 7: Record the error analysis here in Table 3 Table 3: Percentage error Load 3, m3 (g) Angle 1, θ1 error (%) Angle 2, θ2 error (%) 4.0 DISCUSSION TASK 8: DISCUSSION The discussion will be base on the objectives, theoretical values, experimental values and error calculation. Please including graph in the discussion.What is the relation between theory and experiment? Please including graph in the discussion.What is the relation between theory and experiment? 5.0 CONCLUSION TASK 9: CONCLUSION Make a general statement from your result. Please refer to the objectives as a guide. TASK 9: Write the conclusion here 6.0 REFERENCES / OTHERS ASSESSMENT CRITERIA: Your response to each task will be graded separately based on the checklist attached. To obtain maximum marks, ensure that your response addresses each of the tasks in the question accordingly. Assessment checklist for Lab Activity Assessment tasks Mark allocation LO PO Procedure: Ability to understand the procedure from video demonstration and write the procedure completely. Work Process: Ability to process raw given data and correlate with video demonstration 10 LO3 PO4 20 LO3 PO4 P4 – Mechanism 30 LO3 PO5 P4 – Mechanism 30 LO3 PO5 P4 – Mechanism 10 LO3 PO4 P2 – Set Outcome (Results): Ability to display data in correct figure and/or table format. 2) Ability to perform calculation for statics analysis 1) Outcome (Discussion & Conclusion): 1) Ability to interpret statics data and trend correctly. C/P/A level P3 – Guided response 2) Ability to provide observation and comments related to the interpretation. Discipline TOTAL 100 SPECIFIC INSTRUCTION 1. Answer in ENGLISH. 2. Must include list of references. 3. Submit the lab assessment ONCE only in a SINGLE file. 4. Student will be given until 72 hours after the lab session to submit the report. ZERO mark will be given after the late submission dateline. 5. This lab assessment accounts for 5% of the total marks for the course. 6. APPENDIX: . FAKULTI TEKNOLOGI KEJURUTERAAN MEKANIKAL DAN PEMBUATAN UNIVERSITI TEKNIKAL MALAYSIA MELAKA BMMA 1333 STATICS ( STATIK) LAB 1 EQUILIBRIUM OF FORCES FOR 3 POINT LOAD INSTRUCTOR’S NAME Dr Ridhwan Bin Jumaidin STUDENT’S NAME MATRIX NO: S1. S2. S3. S4. S5. ASSESSEMENT RUBRICS ASSESSMENT TASK/ITEMS 1 . 2 . 3 . 4 . 5 . MARK ALLOCATI ON Procedure: Ability to understand the procedure from video demonstration and write the procedure completely. Work Process: Ability to process raw given data and correlate with video demonstration Outcome (Results): 3) Ability to display data in correct figure and/or table format. 4) Ability to perform calculation for statics analysis Outcome (Discussion & Conclusion): 1) Ability to interpret statics data and trend correctly. 2) Ability to provide observation and comments related to the interpretation. Discipline 10 TOTAL MARKS 100 20 30 30 10 GIVEN MARKS S1 S2 S3 S4 S5 Approved By: ………………………………………………..….. (Instructor’s Signature & Stamp) Date: ……………………………………………......... Very Weak 0 Item Descript ion Proce dure Ability to understa nd the procedur e from video demonstr ation and write the procedur e completel y Unable to identify procedure s from video demonstra tion and totally wrong Work Proce ss Ability to process the raw given data and correlate with video demonstr ation Show results (Simulati on and/or Hardware ) Modest 2 Good 3 Excellent 4 Major written procedures are missing from video demonstrati on and incorrect Some written procedures are missing from video demonstra tion but acceptable All procedures are good written stated from video demonstrat ion but could still be improved All procedure s are well written completel y from video demonstr ation without missing Unable to process the raw given data and fail to correlate with video demonstra tion Minimum ability to process the raw given data and incorrect correlate with video demonstrati on Able to process the raw given data and correlate with video demonstra tion but still incomplete Most of the raw given data are processed and correlate with video demonstrat ion correctly All of the raw given data are processed and correlate with video demonstr ation perfectly No record of results at all in any form. Data, figures, graphs, tables, diagrams, contain errors or are poorly constructed, have missing titles, captions, labeled or numbers, units missing or incorrect, etc. Most data, figures, graphs, tables, diagram are recorded, some labeled still missing some important or required features All data, figures, graphs, tables, diagram, are correctly drawn, and labeled but some have minor problems or could still be improved All data, figures, graphs, tables, diagrams are correctly drawn, are numbered , are labeled and contain titles/capt ions. Some of the results have been correctly interpreted and discussed; understan ding of Almost all of the results have been correctly interpreted and discussed. Observatio All important trends and data compariso ns have been interprete d Outco me No interpretat Explain ion of purpose trends and of compariso experime n of data, nt observatio n and conclusion Weak 1 Incomplete or incorrect interpretatio n of trends and comparison of data, observation and 15 indicating a lack of understan ding of results. Ability to obey the punctuali Discipl ty and ine due date submissio n conclusion indicating a lack of understandi ng of results. Late report Late online submissio lab login n 16 correctly and results is discussed. still n and Understan evident, comments ding of observatio are good. results is n and Requires conveyed comments only minor through are improveme observati acceptable nts. on and . comment s. Conform Conform to Conform to to all all criteria all criteria criteria but and and active passive in workable in in online online lab online lab lab activities activities activities
