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Consider a balloon fillad with 1 lter of water (1000 cm2) in equilibrium in a container...
Please show all work!!! Question 15 O pts 1.A 5.0 mx 10 m swimming pool is...
Please show all work!!!
Question 15 O pts 1.A 5.0 mx 10 m swimming pool is filled to a depth of 100 m. What is the pressure on the bottom of the pool? Idensity of water -1000 kg/m) IL.(a) Calculate the buoyant force of air (air density 1.20 kg/m) on a spherical party balloon that has a radius of 0.15 m. (b) If the rubber of the balloon itself has a mass of 200 grams and the balloon is filled...
B. Floating, wooden block s 13. Remove the brick block from the water.be 14. Use the...
B. Floating, wooden block s 13. Remove the brick block from the water.be 14. Use the scale to determine the weight of the wood block out of water. 49.00 N 15. Note the exact water level reading in the container of water and record the reading below. 100.00L 16. Now, complete submerge the wooden block in the water and hold it there under the water with the mouse. Note the new water level reading in the container of water and...
A rectangular block of wood, 12 cm ×× 18 cm ×× 42 cm, has a specific...
A rectangular block of wood, 12 cm ×× 18 cm ×× 42 cm, has a specific gravity of 0.60. 1) Determine the buoyant force that acts on the block when it is placed in a pool of fresh water. Hint: Draw a free-body diagram labeling all of the forces on the block. (Express your answer to two significant figures.) 2) What fraction of the block is submerged? 3) Determine the weight of the water that is displaced by the block....
Show all work and answer all parts of the problem please. The 45 degree elbow nozzle discharges water into the atmosphere. The cross-sectional area of the elbow is 25 cm2 150 cm2 at the inlet and...
Show all work and answer all parts of the problem
please.
The 45 degree elbow nozzle discharges water into the atmosphere. The cross-sectional area of the elbow is 25 cm2 150 cm2 at the inlet and 25 cm2 at the exit. Velocity at point 1 and 2 are given as 2 m/s and 12 m/s 450 respectively. The gage pressure at 1 is 73 kPa 150 em2 30 cm The elevation difference between the centers of the exit and the...
please answer all these questions Archimedes Principle - Upward Tension Additional Force As shown in the...
please answer all these questions
Archimedes Principle - Upward Tension Additional Force As shown in the above figure, a solid object has a density of 1200 kg/m3 and a volume of 7.80x10^-5 m3. It is lowered on a string into water and completely submerged without touching the container. The density of water is 1000 kg/m3. Keep 3 decimal places in all answers. (Don't use scientific notations.) Without the string, would the solid object sink in water or float in water?...
Figure 1 Buoyancy simulation Interface Step1: Go to the Buoyancy simulation website of PhET by us...
Could you do this please?
Figure 1 Buoyancy simulation Interface Step1: Go to the Buoyancy simulation website of PhET by using the following link https://phet.colorado edu/sims/density-and-buoyancy/buoyancy en html Step2: Click on the tab "Buoyancy Playgound" to perform the simulation Step3: Finish the simulations listed in Table 1. Table 1 Simulation condition matrix Fluid Solution Relative Locations Block2 Case Number of blocks Block 1 Requirement Float or sink? V, w in air, Va Fb, w in water F if any water...
A sample of water in equilibrium with its vapor in a closed 1-L container has a...
A sample of water in equilibrium with its vapor in a closed 1-L container has a vapor pressure of 23.8 torr at 25°C. The container's volume is increased to 9 Lat constant temperature and the liquid/vapor equilibrium is reestablished. What is the vapor pressure?
A sample of water in equilibrium with its vapor in a closed 1-L container has a...
A sample of water in equilibrium with its vapor in a closed 1-L container has a vapor pressure of 23.8 torr at 25°C. The container's volume is increased to 9 L at constant temperature and the liquid/vapor equilibrium is reestablished. What is the vapor pressure?
Problem 1. T he reaction of iron and water vapor results in an equilibrium 3 Fe(s)...
Problem 1. T he reaction of iron and water vapor results in an equilibrium 3 Fe(s) + 4H2O(g) Fe3O4(s) + 4H2(g) 근 and an equilibrium constant, K, of 4.0 at 850-c. what is the concentration of hydrogen present at equilibrium if the reaction is initiated with 31 g of H20 and excess Fe in a 13 liter vessel. Assume the volumes of the Fe and Fe304 are small compared to the size of the vessel.
Tranport Phenomena Settling of ceramic particles in water. Small and relatively uniform titanium oxide particles can...
Tranport Phenomena
Settling of ceramic particles in water. Small and relatively uniform titanium oxide particles can be made by precipitation from a solution. Here we will study how fast the particles sink through solution so the particles can be collected from the bottom of the container 1- Derive an expression for the terminal rising/sinking velocity of a sphere in a fluid, starting from the friction factor definition for flow past a sphere, the weight and buoyancy force, and the relation...
Please show all work!!!
Question 15 O pts 1.A 5.0 mx 10 m swimming pool is filled to a depth of 100 m. What is the pressure on the bottom of the pool? Idensity of water -1000 kg/m) IL.(a) Calculate the buoyant force of air (air density 1.20 kg/m) on a spherical party balloon that has a radius of 0.15 m. (b) If the rubber of the balloon itself has a mass of 200 grams and the balloon is filled...
B. Floating, wooden block s 13. Remove the brick block from the water.be 14. Use the scale to determine the weight of the wood block out of water. 49.00 N 15. Note the exact water level reading in the container of water and record the reading below. 100.00L 16. Now, complete submerge the wooden block in the water and hold it there under the water with the mouse. Note the new water level reading in the container of water and...
Show all work and answer all parts of the problem
please.
The 45 degree elbow nozzle discharges water into the atmosphere. The cross-sectional area of the elbow is 25 cm2 150 cm2 at the inlet and 25 cm2 at the exit. Velocity at point 1 and 2 are given as 2 m/s and 12 m/s 450 respectively. The gage pressure at 1 is 73 kPa 150 em2 30 cm The elevation difference between the centers of the exit and the...
please answer all these questions
Archimedes Principle - Upward Tension Additional Force As shown in the above figure, a solid object has a density of 1200 kg/m3 and a volume of 7.80x10^-5 m3. It is lowered on a string into water and completely submerged without touching the container. The density of water is 1000 kg/m3. Keep 3 decimal places in all answers. (Don't use scientific notations.) Without the string, would the solid object sink in water or float in water?...
Could you do this please?
Figure 1 Buoyancy simulation Interface Step1: Go to the Buoyancy simulation website of PhET by using the following link https://phet.colorado edu/sims/density-and-buoyancy/buoyancy en html Step2: Click on the tab "Buoyancy Playgound" to perform the simulation Step3: Finish the simulations listed in Table 1. Table 1 Simulation condition matrix Fluid Solution Relative Locations Block2 Case Number of blocks Block 1 Requirement Float or sink? V, w in air, Va Fb, w in water F if any water...
A sample of water in equilibrium with its vapor in a closed 1-L container has a vapor pressure of 23.8 torr at 25°C. The container's volume is increased to 9 Lat constant temperature and the liquid/vapor equilibrium is reestablished. What is the vapor pressure?
A sample of water in equilibrium with its vapor in a closed 1-L container has a vapor pressure of 23.8 torr at 25°C. The container's volume is increased to 9 L at constant temperature and the liquid/vapor equilibrium is reestablished. What is the vapor pressure?
Problem 1. T he reaction of iron and water vapor results in an equilibrium 3 Fe(s) + 4H2O(g) Fe3O4(s) + 4H2(g) 근 and an equilibrium constant, K, of 4.0 at 850-c. what is the concentration of hydrogen present at equilibrium if the reaction is initiated with 31 g of H20 and excess Fe in a 13 liter vessel. Assume the volumes of the Fe and Fe304 are small compared to the size of the vessel.
Tranport Phenomena
Settling of ceramic particles in water. Small and relatively uniform titanium oxide particles can be made by precipitation from a solution. Here we will study how fast the particles sink through solution so the particles can be collected from the bottom of the container 1- Derive an expression for the terminal rising/sinking velocity of a sphere in a fluid, starting from the friction factor definition for flow past a sphere, the weight and buoyancy force, and the relation...
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