L03 The Coefficient of Static Friction 1. Pre-Lab Exercises
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1 L03 The Coefficient of Static Friction 1 Full Name: Lab Section: Pre-Lab Exercises Hand this in at the beginning of the lab period. The grade for these exercises will be included in your lab grade this week. 1. Draw a free body diagram showing all forces acting on a box of mass m resting on a flat table if the coefficient of static friction between the box and the table is µ s and there is a force, F applied, directed on the box from left to right. 2. Using your free body diagram above, write an equation for the magnitude of the force of static friction on the box in terms of its mass and the acceleration of gravity. 3. What is the formula for calculating percent difference (difference between two measured quantities: x1 and x2)? 4. What is the formula for calculating the standard deviation of an entire population of quantities?
2 L03 The Coefficient of Static Friction 2 The Coefficient of Static Friction Full Name: Lab Partners Names: Lab Section: Introduction: The purpose of this laboratory experiment is to investigate the property of friction as it applies to two objects in contact and at rest with respect to each other. Friction is a highly complex phenomenon but can be simply approximated by assuming the quantity called the coefficient of static friction remains constant regardless of the mass of the object. As always, be sure to complete all bold-faced items, as they will be graded. The fact that there are fewer items to grade in this exercise means that each one will, of course, be worth more points. Equipment: Science Workshop interface Dynamics Track Dynamics Cart Sensor Bubble Levels Friction Boxes Masses Balance (500 grams +) Procedure: 1. Setting up the equipment: 1.1 Connect the Science Workshop interface to The computer, turn on the interface and then turn on the computer. (This may have been done for you already.) 1.2 Open DataStudio. In the Experiment Setup box, add the Sensor and connect it as indicated. 1.3 Double click on the Sensor icon to the right. Under the General tab, make sure that the force sensor is set to measure Slow Changes and that the sampling frequency is 50 Hz.
3 L03 The Coefficient of Static Friction Under the Measurement tab, make sure the force sensor is set to, Channel A. 1.5 Close the experiment setup window. In the display frame on the lower left, open a graph for your data. Level the track using the bubble level and the leveling screw. Step 2.4 Step Taking Data: 2.1 You can connect a rubber stopper to the force sensor to measure pushes or connect a hook to measure pulls. The sensor will record data from 50N to +50N with a pull on the hook measuring as a negative force and a push on the stopper measuring as a positive force. Connect the rubber stopper if it is not already connected. 2.2 Connect the force sensor to the dynamics cart using the small Phillips head screwdriver. Measure the mass of the friction box and masses provided. 2.3 Reset the force sensor to zero by pressing the button on the side labeled tare while making sure the force sensor is not touching anything. Do this between every trial. 2.4 Place the dynamics cart onto the dynamics track and place the plastic-bottomed friction box with the flat side (as opposed to the one with the small hook) facing the force sensor. You will have to offset the friction box slightly so that the rubber stopper will press against the box. 2.5 Place a black mass into the friction box. 2.6 Push on the plastic-bottomed friction box ten times with the force sensor/dynamics cart as follows: Apply constantly increasing pressure to the friction box. You will notice that although the box does not move the force sensor is detecting an increase in the push on the button. At a certain point the box will break free and begin to move. At this point you have exceeded the maximum static friction force. Stop pushing at this point. You will see a severe drop
4 L03 The Coefficient of Static Friction 4 in the graph. (See above graph for an example.) 2.7 Click on the the smart/xy-tool icon and drag the icon that appears over ten of the peaks on this graph. You will see an (x,y) pair for the data point you have selected. Record the force values for these ten peaks in a chart in Excel. See the table below for an example. 2.8 Add another mass to the friction box and repeat steps 2.6 and 2.7, recording the values in your chart. 2.9 Now push on the friction box ten times from the other side with the two masses in it. You will see a plastic hook that you will need to push on with the force sensor. Do not simply rotate the friction box! Take the cart and place it on the other side of the friction box. Record this force data as well Repeat steps 2.3 through 2.9 for the felt and cork bottomed boxes. Material: Plastic Direction Black Mass Masses (kg) Material: Felt Direction Black Mass Masses (kg) Material: Cork Direction Black Mass Masses (kg) 3. Analyze the data: 3.1 Print one graph that you collected, along with titles and axis labels. 3.2 In Excel calculate the average max force of friction and the standard deviation for each series of 10 pushes. Create an additional columns in your chart for your calculation. Click on the box that you want to contain Fmax avg for your first data run. Now enter the equation =AVERAGE(1 st Fmax:10 th Fmax) in the equation line up top, just like you did in the last lab. NOTE: Actually put in the correct box location for 1 st and 10 th Fmax. For example: (B2:K2). Create an additional column in your chart for calculating the standard deviation of the max forces using the equation =STDEV(1 st Fmax:10 th Fmax).
5 L03 The Coefficient of Static Friction Calculate the coefficient of static friction and its standard deviation using Excel. Make sure your values for µ and standard deviation are recorded in your chart. 3.4 Print out a copy of your chart, complete with all data runs and average values of force and static coefficient of friction. Questions: 1. What is the percent difference between the coefficient of static friction for the flat side of the box with one mass and for the flat side of the box with two masses? Calculate the percentage difference for the other two surfaces. 2. How did you expect an increase in mass to affect the coefficient of static friction? Is the effect of increased mass large compared with the standard deviation? If so, what would be a physical justification for a difference in µ when the mass is increased? 3. How does the type of material on the bottom of the box affect the coefficient of static friction? 4. Does the coefficient of static friction seem to depend on the direction with which you push on the box? Why or why not? In answering this question you should consider whether the effect is large compared with the standard deviation.
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