An object is found to be 59 percent submerged when floated on a pool of mercury. What is the density of the object? The density of mercury is 13.6 × 103 kg/m3.
(the answer is 8020)
An object is found to be 59 percent submerged when floated on a pool of mercury....
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
As the depth in a fluid increases, the pressure increases due to the larger weight of the column of fluid above. At what depth, in meters, a column of mercury is the pressure 1.00 atm? The density of mercury is 13.6 × 103 kg/m3?
3. What is the density of an object that is 27% submerged when floating in water at 0°C? What percentage of the object will be submerged if it is placed in ethanol at 0° C? Density (kg/m3) Liquid Gasoline 680 Ethanol 790 Oil 850 Water (0°C) 999.87 Water (3.98°C) 1000.00 Seawater 1025
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.
An object is solid throughout. When the object is completely submerged in ethyl alcohol, its apparent weight is 15.0 N. When completely submerged in water, its apparent weight is 13.7 N. What is the volume of the object?(The density of ethyl alcohol is 806 kg/m³)
An object weighs 0.345 kg in air and 0.219 kg when it is submerged in water whose density 997 kg/m°. Calculate the density of the object.
Determine the force needed to be applied to an object in order to lift it when submerged under water if the object has a mass of 170 kg and density of 2700 kg/m3. Take the density of water to be 998 kg/m3.
3. Archimedes' Principle states that the buoyant force on an object partially or fully submerged in a fluid is equal to the weight of the fluid that the object displaces. For an object of density po floating partly submerged in a fluid of density pf, the buoyant force is given by F P19 SA(y)dy, where g is the acceleration due to gravity and A(y) is the area of a typical cross-section of the object. The weight of the object is...
An object of mass 0.800 kg is completely submerged in water, as shown below. Find the density of the object, in g/cm3, if the spring scale reads 4.94 N. The density of water is 1000 kg/m3. Do not type in units.
A)An object of volume 7.50×10−4m3 and density 1.15×103kg/m3 is completely submerged in a fluid. Calculate the weight of this object. B)Calculate the buoyant force on this object if the fluid is air (density 1.20 kg/m3). C)Calculate the buoyant force on this object if the fluid is water (density 1.00×103kg/m3). D)Calculate the buoyant force on this object if the fluid is glycerin (density 1.26×103kg/m3)