A small ferry boat 5m wide and 7m long floats in a water in a lake...
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 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)?
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 square plank of oak (density = 750 kg/m3) floats in a beaker half full of water (density = 1000 kg/m3). The piece of oak is 8 cm on a side and 1 cm thick and floats on its side as shown in the Figure. Find the location of the center of mass of the plank with respect to the water’s surface. Please show work
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 water gate is shown below. The gate is hinged at the top (point A) and held in place with a stop at the bottom. The weight W is designed to counteract the hydrostatic force acting on the gate. The gate is 4 m high and 2 m wide. The water depth d = 5m. Answer the questions below, using a water density of 1000 kg/m3, and g = 9.81 m/s2. Calculate the average hydrostatic pressure acting on the gate....
A. 2 pts. Consider a small hydroelectric power station that generates 1000 kW of electrical power. Water passes through the turbine as it falls from the reservoir level down a vertical drop of 25.0 m to the river below the dam. Assuming 80.0% conversion efficiency, what volume of water must pass through the turbine each second? (give answer in m') p= density of water 1000 kg/m3 g=9.81 ms-2 B. 2 pts. Determine the total energy content of all the natural...
can someone help me find this information? Pre-Laboratory Exercise: Plastics Identification I. List four properties that you will use in lab to determine the identity of the polymer samples 2. Describe the density test. What observation will help you determine the density of each polymer? What precautions should be taken in placing the sample in the solutions? 3. Write the name and abbreviation for the six recyclable polymers 2 huetn deisity polyetayene.HDpz poulene: PP 4. Given the list of wavenumber...