3. Friction lab * your table should have the following headings: mass, Fg, FN, Fapp, Ff and mu handing in, Tabe, Graph and slope calculation, Discussion question answer

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Create a table of observation with the following hearing mu, Ff, FN, Fapp, Fg and Mass As well as plot a force of friction vs normal force graph and draw a line of best fit and calculate the slope of this line Ff= 1.1N Fn= -9.8 xm Fg= 9.8 xm
3. Friction lab * your table should have the following headings: mass, Fg, FN, Fapp, Ff and mu
handing in, Tabe, Graph and slope calculation, Discussion question answer
Here's the data in case you missed it:
Mass 1 = 0.1443 kg and Force applied = 1.1 N
Mass 2 = 0.3443 kg and Force applied = 3.0 N
Mass 3 = 1.1443 kg and Force applied = 9.3 N
%3D
%3D
Mass 4 = 0.6443 kg and Force applied = 5.4 N
Mass 5 = 0.8443 kg and Force applied = 7.0 N
%3D
Transcribed Image Text:3. Friction lab * your table should have the following headings: mass, Fg, FN, Fapp, Ff and mu handing in, Tabe, Graph and slope calculation, Discussion question answer Here's the data in case you missed it: Mass 1 = 0.1443 kg and Force applied = 1.1 N Mass 2 = 0.3443 kg and Force applied = 3.0 N Mass 3 = 1.1443 kg and Force applied = 9.3 N %3D %3D Mass 4 = 0.6443 kg and Force applied = 5.4 N Mass 5 = 0.8443 kg and Force applied = 7.0 N %3D
Determining the Coefficient of Kinetic Friction
Today you will find the coefficient of friction between the lab bench and a wood block.
You will drag a wood block across the lab bench at a constant velocity with a newton's
scale. You will need to increase the mass by placing masses on top of the block. Once
you establish a constant velocity read the force on the Newton's scale. This is applied
force, but since you are moving at a constant velocity that means this is also the force of
friction in the opposite direction. "make sure your force is horizontal only.
1. Measure the mass of the block and record it here:
2. Place a mass or two on the block and drag the wood block across the lab bench
at a constant velocity with a newton's scale. Determine the total mass and record
in a table. Calculate the normal force and record this in your table too.
3. Once you establish a constant velocity read the force on the Newton's scale and
record in your table.
4. Repeat steps 2 and 3 for at least four different masses.
5. Create a table of observations.
6. Plot a force of friction vs. Normal Force graph. Draw a line of best fit and
calculate the slope of this line.
kg.
Transcribed Image Text:Determining the Coefficient of Kinetic Friction Today you will find the coefficient of friction between the lab bench and a wood block. You will drag a wood block across the lab bench at a constant velocity with a newton's scale. You will need to increase the mass by placing masses on top of the block. Once you establish a constant velocity read the force on the Newton's scale. This is applied force, but since you are moving at a constant velocity that means this is also the force of friction in the opposite direction. "make sure your force is horizontal only. 1. Measure the mass of the block and record it here: 2. Place a mass or two on the block and drag the wood block across the lab bench at a constant velocity with a newton's scale. Determine the total mass and record in a table. Calculate the normal force and record this in your table too. 3. Once you establish a constant velocity read the force on the Newton's scale and record in your table. 4. Repeat steps 2 and 3 for at least four different masses. 5. Create a table of observations. 6. Plot a force of friction vs. Normal Force graph. Draw a line of best fit and calculate the slope of this line. kg.
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