A block is completely submerged in MERCURY (D = 13.6 kg/L). 34 N of MERCURY are...
A block is completely submerged in MERCURY (D = 13.6 kg/L). 34 N of MERCURY are displaced by the block. How much buoyant force is exerted on the block? Express your answer using appropriate mks units. PLEASE SHOW WORK.
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A block is completely submerged in MERCURY (D = 13.6 kg/L). 34 N
of MERCURY are...
part a & b O Part A: Direct Application of Archimedes' Principle A stone is completely...
part a & b
O Part A: Direct Application of Archimedes' Principle A stone is completely submerged in MERCURY (D-13.6 kg/L). The stone experiences a buoyant force of 23 N. What is the weight of the MERCURY displaced by the stone? Express your answer using appropriate mks units. Enter a number vith units Part B: Data Table Paul has a water.tight treasure chest that displaces 782 N of water when it is fully submerged. Fill in the table below by...
105.00 L 5.00 kg 0.00 N Fluid Oil Water Weight of 5.00 kg wood block =...
105.00 L 5.00 kg 0.00 N Fluid Oil Water Weight of 5.00 kg wood block = 49 N Step 2: Place the wood block in the water and notice that it floats. When the wood block rests on the ground, the downward gravitational force is balanced by an upward normal (“contact") force. When floating, the gravitational force is still there, but the normal (contact") force is not. The force exerted by the fluid is the buoyant force (B). When floating,...
A 16 m3 incompressible box is completely submerged in a fluid. What volume of fluid is...
A 16 m3 incompressible box is completely submerged in a fluid. What volume of fluid is displaced by the box if the fluid is... A.) ...AIR? The density of air is 1.2 kg/m3. m3 B.) ...MERCURY? The density of mercury is is 13.6 g/mL. m3 C.) ...HELIUM? The density of helium is 0.1786 g/L. m3 D.) ...WATER? The density of water is 1 g/cm3. m3 Also for 62 m^3 box
0. 102.50 L 5.00 kg 24.50 N Fluid Water Question-6: Draw and label a diagram of...
0. 102.50 L 5.00 kg 24.50 N Fluid Water Question-6: Draw and label a diagram of the brick block at rest on the bottom of the pool to show how the forces of weight, apparent weight, and buoyant force act on the block. Calculate the size of the buoyant force. Show your work. What is the volume of the brick block? (Observe; do not calculate!) What is the volume, mass, and weight of the displaced water?
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 20 kg piece of metal displaces 7.8 L of water when submerged. Find the density...
A 20 kg piece of metal displaces 7.8 L of water when submerged. Find the density (kg/m^3) A 2.3 m-tall barrel is filled with water (with a weight density of 2127N / (m ^ 3) ). Find the water pressure (in kPa) on the bottom of the barrel Find the force of gravity between a object (mass = 2.9 kg) and another planet (mass=7.6*10^ 23 kg) when the planet at its closest to Earth \ d/stance=1.2 x 10^ 10 m)...
Review l Constants ! Periodic Table Part A A block with a mass of 0.30 kg...
Review l Constants ! Periodic Table Part A A block with a mass of 0.30 kg is attached to a horizontal spring The block is pulled back from its equilibrium position until the spring exerts a force of 1.1 N on the block When the block is released, it oscillates with a frequency of 1.2 Hz How far was the block pulled back before being released? Express your answer with the appropriate units. alne Units Submit
A) A 4.00 cm x 4.00 cm x 4.00 cm cube of density 920 kg/m3 is...
A) A 4.00 cm x 4.00 cm x 4.00 cm cube of density 920 kg/m3 is floating at rest at the top of a beaker of cross sectional area 100 cm2 with 500 mL of water in it (1 mL of water has a volume of 1 cm3 or 1x10-6 m3 ). 500 mL of oil of density 900 kg/m3 is added to the top of the beaker, and the cube is observed to float completely submerged, unevenly straddling the...
Can you help me to complete this Lab work, table and calculation and give a conclusion...Thank...
Can you help me to complete this Lab work, table and calculation
and give a conclusion...Thank you...
PHYS 204 L-Archimede's Principle: Buoyancy and Specific Gravity AIM: The aim of this laboratory exercise is to investigate the relationship between the buoyant force exerted on a submerged object and the specific gravity of that object, and to determine the specific gravity. NAME: GROUP I DATE: 01/2</20 Dimensions of samples Diameter or Width (cm) Length (cm) Height (cm) SAMPLE 2-46 4.26 4. 26...
Blocks with masses of 1 kg,4kg, and 5 kg are lined up in a row on...
Blocks with masses of 1 kg,4kg, and 5 kg are lined up in a row on a frictionless table. All three are pushed forward by a 57 N force applied to the 1 kg block. You may want to review (Pages 165-168) ▼ Part A How much force does the 4 kg block exert on the 5 kg block? Express your answer to one significant figure and include the appropriate units F-1 Value Part B How much force does the...
part a & b
O Part A: Direct Application of Archimedes' Principle A stone is completely submerged in MERCURY (D-13.6 kg/L). The stone experiences a buoyant force of 23 N. What is the weight of the MERCURY displaced by the stone? Express your answer using appropriate mks units. Enter a number vith units Part B: Data Table Paul has a water.tight treasure chest that displaces 782 N of water when it is fully submerged. Fill in the table below by...
105.00 L 5.00 kg 0.00 N Fluid Oil Water Weight of 5.00 kg wood block = 49 N Step 2: Place the wood block in the water and notice that it floats. When the wood block rests on the ground, the downward gravitational force is balanced by an upward normal (“contact") force. When floating, the gravitational force is still there, but the normal (contact") force is not. The force exerted by the fluid is the buoyant force (B). When floating,...
0. 102.50 L 5.00 kg 24.50 N Fluid Water Question-6: Draw and label a diagram of the brick block at rest on the bottom of the pool to show how the forces of weight, apparent weight, and buoyant force act on the block. Calculate the size of the buoyant force. Show your work. What is the volume of the brick block? (Observe; do not calculate!) What is the volume, mass, and weight of the displaced water?
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...
Review l Constants ! Periodic Table Part A A block with a mass of 0.30 kg is attached to a horizontal spring The block is pulled back from its equilibrium position until the spring exerts a force of 1.1 N on the block When the block is released, it oscillates with a frequency of 1.2 Hz How far was the block pulled back before being released? Express your answer with the appropriate units. alne Units Submit
Can you help me to complete this Lab work, table and calculation
and give a conclusion...Thank you...
PHYS 204 L-Archimede's Principle: Buoyancy and Specific Gravity AIM: The aim of this laboratory exercise is to investigate the relationship between the buoyant force exerted on a submerged object and the specific gravity of that object, and to determine the specific gravity. NAME: GROUP I DATE: 01/2</20 Dimensions of samples Diameter or Width (cm) Length (cm) Height (cm) SAMPLE 2-46 4.26 4. 26...
Blocks with masses of 1 kg,4kg, and 5 kg are lined up in a row on a frictionless table. All three are pushed forward by a 57 N force applied to the 1 kg block. You may want to review (Pages 165-168) ▼ Part A How much force does the 4 kg block exert on the 5 kg block? Express your answer to one significant figure and include the appropriate units F-1 Value Part B How much force does the...
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