Measurement of Free-Fall Acceleration Introduction Galileo Galilei (1564-1642)‚ the man first accredited with the correct notion of free-fall with uniform acceleration‚ stated that ’if one were to remove entirely the resistance of the medium‚ all materials would descend with equal speed.’ Today‚ this statement holds true for all objects in free-fall near the Earth’s surface. The purpose of this experiment is to verify Galileo’s assertion that acceleration is constant. In addition‚ the magnitude
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Abstract In this experiment Newton’s Second Law of Motion was measured with the use of the gravitational acceleration g on Earth by applying a free fall process. Objective The objective of this experiment is to validate Newton’s Second Law of motion. In experimenting the Law the measurement of acceleration of gravity was used by measuring the distance a dropped ball travels for a specific amount of time. Procedure First‚ measurements were taken of the distance from the stairway
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cm 83 m = _____83000000_____ μm 41‚692 m = ____.000041692______ mm 110 kilometers = _____110000_____ m = ____110000000________ mm 3.7 hectometers =____370_____ m =_____37000_______ cm 451‚000‚000 μm = ____.000451_____ m = ____.0000451_______ dam 2) Imagine a field is about 100 meters long. If you run a 5K race how many meters is it? Approximately how many “fields” does this equate to? 50 football fields 3) Measure the following objects. A) Your computer screen (in meters) Length______________
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The effect of distance between dominoes and time taken to fall Introduction By collecting data whilst keeping all variables constant apart from the independent and dependent variables of an experiment‚ it is possible to determine a relationship between them. One relationship that can be observed in a laboratory is the relationship between the distance (denoted by symbol d) of separation of dominoes in a domino chain and the time taken (denoted by symbol t) for all dominoes to fall over. It is expected
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Sample Formal Laboratory Report for Physics on the Picket Fence Lab (CP) without the parachute Purpose: The purpose of this experiment is to verify the acceleration due to gravity using the picket fence with a photogate‚ LabPro and LoggerPro software by measuring it with a precision of 0.5% or better. Theory: All objects‚ regardless of mass‚ fall with the same acceleration due to gravity assuming that there is no air resistance. Objects thrown upward or downward and those released from
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Picket Fence Free Fall DATA TABLE |Trial | 1 |2 |3 |4 |5 | |Slope(m/sec2) |9.81 |9.61 |9.87 |9.76 |9.82 | Analysis 1. | |Minimum |Maximum |Average | |Acceleration(m/sec2) |9.61
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earlier to determine the identity of different substances. To determine the precision of your technique‚ you will calculate the percent error‚ which is a comparison of the differences between the measured value and accepted value. Percent error can be determined as follows: % Error = (Measured Value – Accepted Value( x 100 Accepted Value OBJECTIVES When you have completed this activity‚ you should be able to: Observe the chemical and physical properties of substances
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yeast on the level of respiration in the solution‚ as measured by the degree of colour change after 10 minutes. | Degree of colour change in yeast solution at 35 °C after 10 minutes | Concentration of NaF drops in the yeast solution (+/-1 drops) | Group 1 | Group 2 | | Trial 1 | Trial 2 | Trial 3 | Trial 4 | Trial 5 | Trial 1 | Trial 2 | Trial 3 | Trial 4 | Trial 5 | A=0 drops | 1 | 2 | 2 | 2 | 2 | 1 | 1 | 1 | 1 | 1 | B=5 drops | 2 | 4 | 2 | 4 | 4 | 3 | 3 | 3 | 3 | 3 | C=10 drops | 4 |
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2/12/2013 Lab 1430 Free Fall The difference of the outline procedure and the actual procedure is the use of the brass screw was not working in our set up. So we had to improvise and use our hand as the release mechanism as what we had seen this didn’t make difference from others results. Drop Distance 50(cm) Drop Time(sec) 1 .306179 2 .310800 3 .304614 4 .311203 5 .298986 Drop Distance 100(cm) Drop Time(sec) 1 .419258 2 .417368 3 .420589 4 .416400 5 .430646 Drop Distance 150(cm) Drop Time(sec) 1
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Physics 211 Experiment 1: Free Fall - Determining the acceleration of gravity Prior to Lab: Derive the numbered equations (Equations 1‚ 2 and 3) in the lab instructions using the definitions of velocity and acceleration (a=dv/dt and v=dy/dt). Object: The object of this experiment is to determine the value of the acceleration of gravity by measuring the rate of acceleration of a freely falling object. In addition‚ one will be able to compare theory with experiment for constantly accelerated
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