A spring is stretched and the work recorded as shown in the table below. Work (joules)...
A spring is stretched and the work recorded as shown in the table below.
| Work (joules) | Stretch (m) |
| 0.350 | 0.10 |
| 1.40 | 0.20 |
| 3.15 | 0.30 |
| 5.60 | 0.40 |
| 8.75 | 0.50 |
| 12.6 | 0.60 |
| 17.2 | 0.70 |
Graph this data to find the spring constant, k, of the spring. Give your answer in N/m.
Hint #1: What is the formula work and spring displacement?
Hint #2: You can cut and paste the table into a spreadsheet to save time!
- This data is NOT linear. You'll need to add a column and modify the data to graph a straight line or graph the actual data and pick the correct type of trend line.
Make sure:
- Your trend line includes an equation (set the intercept to 0)
- Your axes and equation are labeled correctly.
- You SAVE your spreadsheet so you can upload it to Canvas
- On your spreadsheet OR on a separate piece of paper, show HOW you came to your answer with the values from the graph.
Homework Answers
![S.No. work stretch K (Joules) (m 2 (my (N/m] 6 0.150 0.10 70 1.40 0. 20 70 3.15 0.30 to 5.60 70 0.40 8.75 0.50 to (6 12.6 0.6](http://img.homeworklib.com/questions/b69e07d0-da83-11ea-95a3-d93507501ff5.png?x-oss-process=image/resize,w_560)
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A spring is stretched and the work recorded as
shown in the table below.
Work
(joules)...
A spring is stretched and the work recorded as shown in the table below. Work Stretch...
A spring is stretched and the work recorded as shown in the table below. Work Stretch (joules) (m) 0.350 0.10 1.40 0.20 3.15 0.30 5.60 0.40 8.75 0.50 12.6 0.60 17.2 0.70 Graph this data to find the spring constant, k, of the spring. Give your answer in N/m. Hint #1: What is the formula work and spring displacement? Hint #2: You can cut and paste the table into a spreadsheet to save time! . This data is NOT linear....
A spring is stretched and the work recorded as shown in the table below. Work Stretch...
A spring is stretched and the work recorded as shown in the table below. Work Stretch (joules) (m) 0.350 0.10 1.40 0.20 3.15 0.30 5.60 0.40 8.75 0.50 12.6 0.60 17.2 0.70 Graph this data to find the spring constant, k, of the spring. Give your answer in N/m.
A spring is stretched and the work recorded as shown in the table below. Work (joules)...
A spring is stretched and the work recorded as shown in the table below. Work (joules) Stretch (m) 0.11 0.1 0.44 0.2 0.99 0.3 1.76 0.4 2.75 0.5 3.96 0.6 5.39 0.7 Graph this data to find the spring constant, k, of the spring. Give your answer in N/m. Hint #1: What is the formula work and spring displacement? Hint #2: You can cut and paste the table into a spreadsheet to save time! This data is NOT linear. You'll...
A spring is stretched and the work recorded as shown in the table below. Work (joules)...
A spring is stretched and the work recorded as shown in the table below. Work (joules) Stretch (m) 0.11 0.1 0.44 0.2 0.99 0.3 1.76 0.4 2.75 0.5 3.96 0.6 5.39 0.7 Graph this data to find the spring constant, k, of the spring. Give your answer in N/m. please try to graph and explain what you graphed ? hint, data is NOT linear show how u got your values for the graph
3) Consider Hooke's Law: The force required to keep a spring in a compressed or stretched position x units from the spring's equilibrium position is F(x)-kr Calculate the work required, in jo...
3) Consider Hooke's Law: The force required to keep a spring in a compressed or stretched position x units from the spring's equilibrium position is F(x)-kr Calculate the work required, in joules, to stretch a spring 0.4 meters beyond its equilibrium position for each of the following scenarios. a) The spring requires 50 Newtons of force to hold it 0.1 m from its equilibrium position. b) The spring requires 2 Joules of work to stretch the spring 0.1 meter from...
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Table 3: Experimental Data for Part 2: Determination of Activation Energy k Time* T* [1] [S,0,?] Rate (M/s) (s) (C) (M) (M) Run 3 153 20.5 .0208 .0416 4.03*10^-6 4.65*10^-3 (Room T) Run 6 198 9 .0208 .0416 3.15*10^-6 3.64*10^-3 (Cool) Run 7 112 31 .0208 .0416 5.58*10^-6 6.45*10^-3 (Warm) Run 8 40 51 .0208 .0416 1.56*10^-5 1.80*10^-2 (Warmer) 1/T (1/K) In k Run 3 1/293.5 -5.37 Run 6 1/282 -5.62 Run 7 1/304 -5.044 Run 8 1/324 -4.02 20....
A spring is stretched and the work recorded as shown in the table below. Work Stretch (joules) (m) 0.350 0.10 1.40 0.20 3.15 0.30 5.60 0.40 8.75 0.50 12.6 0.60 17.2 0.70 Graph this data to find the spring constant, k, of the spring. Give your answer in N/m. Hint #1: What is the formula work and spring displacement? Hint #2: You can cut and paste the table into a spreadsheet to save time! . This data is NOT linear....
A spring is stretched and the work recorded as shown in the table below. Work Stretch (joules) (m) 0.350 0.10 1.40 0.20 3.15 0.30 5.60 0.40 8.75 0.50 12.6 0.60 17.2 0.70 Graph this data to find the spring constant, k, of the spring. Give your answer in N/m.
3) Consider Hooke's Law: The force required to keep a spring in a compressed or stretched position x units from the spring's equilibrium position is F(x)-kr Calculate the work required, in joules, to stretch a spring 0.4 meters beyond its equilibrium position for each of the following scenarios. a) The spring requires 50 Newtons of force to hold it 0.1 m from its equilibrium position. b) The spring requires 2 Joules of work to stretch the spring 0.1 meter from...
Table 9-1. Determination of a spring constant. Spring Stretched Mass Weight (gcm's) Spring Constant (9) 50 100 15 cm 250 40 cm 5. Write a force equation below for the stationary mass: 7 2 Solve the equation for the spring constant k. b. Calculate the value of the spring constant for each value of the mass and record the result in Table 9-1. Show a sample calculation below. c Calculate the average value of the spring constant and record the...
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Table 1: Experimental data for Hooke's Law lab. Mass (kg) Force (N) Ax (m) 0.100 0.100(9.8)= 0.98 N 0.017 0.139 0.139(9.8)= 1.362 N 0.023 0.165 0.165(9.8)= 1.617 N 0.028 0.090 0.09(9.8)= 0.882 N 0.015 0.300 0.300(9.8)= 2.94 N 0.050 0.050 0.050(9.8)= 0.49 N 0.009 Part B: Determining Unknown Mass Now that you have your spring constant, we are going to determine unknown masses. For the red and blue masses in the simulation, perform experiments to determine their mass. Show your...
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