A 190-g block is launched by compressing a spring of constant k = 200 N/m by 15 cm. The spring is mounted horizontally, and the surface directly under it is frictionless. But beyond the equilibrium position of the spring end, the surface has frictional coefficient μ = 0.27. This frictional surface extends 85 cm. followed by a frictionless curved rise, as shown in Fig. 7.21. After it’s launched, where does the block finally come to rest? Measure from the left end of the frictional zone. FIGURE 7.21 Problem 55
A 190-g block is launched by compressing a spring of constant k = 200 N/m by 15 cm. The spring is mounted horizontally, and the surface directly under it is frictionless. But beyond the equilibrium position of the spring end, the surface has frictional coefficient μ = 0.27. This frictional surface extends 85 cm. followed by a frictionless curved rise, as shown in Fig. 7.21. After it’s launched, where does the block finally come to rest? Measure from the left end of the frictional zone. FIGURE 7.21 Problem 55
A 190-g block is launched by compressing a spring of constant k = 200 N/m by 15 cm. The spring is mounted horizontally, and the surface directly under it is frictionless. But beyond the equilibrium position of the spring end, the surface has frictional coefficient μ = 0.27. This frictional surface extends 85 cm. followed by a frictionless curved rise, as shown in Fig. 7.21. After it’s launched, where does the block finally come to rest? Measure from the left end of the frictional zone.
a cubic foot of argon at 20 degrees celsius is isentropically compressed from 1 atm to 425 KPa. What is the new temperature and density?
Calculate the variance of the calculated accelerations. The free fall height was 1753 mm. The measured release and catch times were:
222.22 800.00
61.11 641.67
0.00 588.89
11.11 588.89
8.33 588.89
11.11 588.89
5.56 586.11
2.78 583.33
Give in the answer window the calculated repeated experiment variance in m/s2.
No chatgpt pls will upvote
Chapter 7 Solutions
Essential University Physics: Volume 1 (3rd Edition)
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