Using these values from the table, calculate the theoretical period (TTH) using the equation listed below
| Amplitude (in degrees) | T (EXP) in s | T (TH) in s |
| 2 | 1.8957 | |
| 5 | 1.8983 | |
| 10 | 1.8991 | |
| 20 | 1.9077 | |
| 30 | 1.9072 |
L = 0.90 m
M = 0.0679 kg
Homework Answers
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Using these values from the table, calculate the theoretical
period (TTH) using the equation listed below...
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please find k, time period from k of part 1, measured
total energy, and theoretical energy using the information from the
pic below and the equations in the following pictures
equation 5.1:
equation 7:
Table 1. Hooke's law and finding Spring constant mg (N/m) 0.050 0.100 10.150- 0281 69.75 0.200 0.250 69 0.350 0.400 Spring constant, k from procedure of part s N/m tion and velocity kg Part II. Measuri 0,03! Mass of spring mp Effective mass mer mm Position...
1. Calculate the experimental head loss from the
readings taken in the manometer below and compare them with
theoretical predictions. NOTE: The table is only provided
for inputting the answers. The only given parameters are the
temperature of the water, flow rate and manometer reading.
Calculate the velocity, Reynolds Number, Darcy Friction
Factor, Theoretical Head Loss and Experimental Head
Loss.
2. Compare the differences of using a
Moody Chart and the Haaland Approximation
of the Darcy Friction Factor by calculating...
please show work in excel
Step 2: On a separate Excel worksheet, solve the following problem from scratch using the approach outlined in the previous steps. Don't not waste time trying to reduce this expression or rearranging this equation for the variable of interest (T). The acceleration of an object undergoing simple harmonic motion can be described by the equation 27T cos a(t) =-A T 2T where a(t) is the acceleration of the object over time (in m/s2), A is...
An ideal wind-turbine, 12 m in diameter, operates at a theoretical efficiency (th) (equation given below) of 50% in u. = 14 m/s wind. If the air density is 1.2 kg/m and (a +u,)(x - 4) Пh 2u 1 23 U2 = U3 = (uj + u4)/2 P1 = P4 = Patm Determine, a) The axial force on the windmill. (assume uniform flow at positions) b) The mean (gage) pressures immediately in front of (P-Patm) and behind (P3-Patm) the disc,...
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just number 17
14. [1pt] A 0.649 kg mass vibrates according to the equation x=0.260 sin(5.811), where x is in meters and is in seconds. Determine the amplitude. Correct, computer gets: 2.60E-01 m 15. [1pt] Calculate the period. Yes, Computer gets: 1.08E+00 s 16.[1pt] Calculate the total energy. Correct, computer gets: 7.40E-01 J 17. [1pt] Calculate the potential energy when x= 11.8 cm Answer: Submit All Answers
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