Radius of Curvature. The radius of curvature for the road shall be derived from the following equation : V2 R = 127 × (c + f) Where : R = Radius of curvature (meters) V = Speed of vehicles (km/h), 70Km/h c = Cross-fall of road (meters per meter) f = Coefficient of side friction force developed between the vehicle tires and road pavement According to Overseas Road Note 6, c=0.03, f=0.15-0.33, when V=70Km/h, f=0.2. This gives R=167.75m Hence R=200m is proposed
Appears in 3 contracts
Samples: Land Lease Agreement, Land Lease Agreement, Land Lease Agreement
Radius of Curvature. The radius of curvature for the road shall be derived from the following equation : V2 R = 127 × (c (c + f) Where : R = Radius of curvature (meters) V = Speed of vehicles (km/h), 70Km/h c = Cross-fall of road (meters per meter) f = Coefficient of side friction force developed between the vehicle tires and road pavement According to Overseas Road Note 6, c=0.03, f=0.15-0.33, when V=70Km/h, f=0.2. This gives R=167.75m Hence R=200m is proposed
Appears in 1 contract
Samples: Land Lease Agreement
Radius of Curvature. The radius of curvature for the road shall be derived from the following equation : V2 R = 127 × (c ×(c + f) Where : R = Radius of curvature (meters) V = Speed of vehicles (km/h), 70Km/h c = Cross-fall of road (meters per meter) f = Coefficient of side friction force developed between the vehicle tires and road pavement According to Overseas Road Note 6, c=0.03, f=0.15-0.33, when V=70Km/h, f=0.2. This gives R=167.75m Hence R=200m is proposed
Appears in 1 contract
Samples: Land Lease Agreement
