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1. **Piston Weight (already given)**: -W. = 51.69 kg (the weight of the piston) 2. **Sprocket Wheel Weight (already given)**: - Ws = 164.4 kg
1. **Piston Weight (already given)**:
-W. = 51.69 kg (the weight of the piston)
2. **Sprocket Wheel Weight (already given)**:
- Ws = 164.4 kg (the weight of the sprocket
wheel)
3. **Chain Weight (already given**
- Wc = 619 kg (the weight of the chain)
Using these weights, the forces due to gravity on each component are:
1. **Force due to gravity on the piston (F p)**.
- Fgp = W. g
- F. 9p = 51.69 kg x 9.81 m/s?
- F gp ~ 507.09 N (Newtons)
2. **Force due to gravity on the sprocket wheel (
Fys)**:
- F '9s = Ws g
- Fog = 164.4 kg x 9.81 m/s?
- F 95 ~ 1613.24 N
3. **Force due to gravity on the chain (Fg)**:
- Fgc = WeX g
- F
g = 619 kg x 9.81 m/s?
- Fac . ~ 6074.39 N
i need a free body daigram for this
Fig. 23 A single-sprocket wheel produces rotation in the plane of motion.
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