A raft is 4.2 m wide and 6.2 m long. When a horse is loaded onto the raft, it sinks 2.8 cm deeper into the water.What is the weight of the horse?
A raft is 3.9 m wide and 6.5 m long. When a horse is loaded onto the raft, it sinks 3.8 cm deeper into the water. Part A What is the weight of the horse? Express your answer using two significant figures.
A.) A raft is 4 m wide and 4 m long. When a horse is loaded onto the raft, it sinks 3.5 cm deeper into the water (freshwater). What is the weight of the horse? (in Newtons) B.) Would the same raft with the same horse rise higher or sink deeper if it was in salt water? Choose from these choices= a. Rise Higher b. Sink Deeper. c. Stay the same
This and the following question relate to the same situation: A raft is 4.2 m wide and 6.5 m long and it floats on water (density of water = 1000 kg/m3). When a horse is loaded onto the raft, it sinks an additional 0.027 m deeper into the water. What is the weight of the horse? (a) 7200 N (b) 1400 N (c) 2400 N (d) 9500 N (e) 5700 N QUESTION 16* What if the same horse were put on the same raft floating...
A small ferryboat is 4.00 m wide and 6.00 m long. When a loaded truck pulls onto it, the boat sinks an additional 4.00 cm into the river. What is the weight of the truck?
A small ferryboat is 4.70 m wide and 5.70 m long. When a loaded truck pulls onto it, the boat sinks an additional 4.50 cm into the river. What is the weight of the truck?
A small ferryboat is 4.50 m wide and 5.50 m long. When a loaded truck pulls onto it, the boat sinks an additional 4.90 cm into the river. What is the weight of the truck (in kN)?
6cm 4cm 15cm A small raft 15.0 cm long, 4.0 cm wide, and 6.0 cm high, of which half of it is submerged under water (ow = 1 g/cm3 or 1000 kg/m3). When a frog jumps onto it, the raft sinks an additional 0.5 cm into the water. Use Archimedes Principle to find the weight of the frog. 0 0.03 N O 0.29 N O 1.76 N 0 294 N 2000 N
A small ferryboat is 25 m long and 10 m wide. When a container is loaded on it, the ferryboat sinks an additional 5 cm. What is the mass of the container (density of slated water = 1050 kg /m3)? A)13,125 kg B)36,750 kg C)175,980 kg D)26,250 kg
A 340-kg wooden raft floats on a lake. When a 80-kg man stands on the raft, it sinks 3.2 cm deeper into the water. When he steps off, the raft oscillates for a while. Part A What is the frequency of oscillation? Express your answer using two significant figures. f= ___________ Hz Part B What is the total energy of oscillation (ignoring damping)? Express your answer using two significant figures. Etotal = _____________ J
A sailor is traveling on his ship. The boat is 6 m long and 3 m wide. When the sailor and his fishing gear go onto the ship, the boat sinks 2.83 cm lower into the water. What is the weight of the sailor and his gear?