why 1000g not in kg/m^3?
density of water.
I think they wrote it this way to factorize the g and cancel g on both sizes if I'm right
why 1000g not in kg/m^3? density of water. I think they wrote it this way to...
Weight of the bottle= 1000g (1 Kg)
Volume in the bottle= 500ml
Gradually,The bottle is immersed in the freshwater
Questions :
1. Assume the freshwater density is 1000 kg/m3,
calculate the weight of the displaced fluid?
2. What is the Buoyancy force on the bottle?
3. Derive an equation to find the density of the object in terms
of weight of the object, apparent weight of the object, and the
volume of the object?
Location Fluid Earth Fresh Water Bottle...
Consider a submarine in seawater with a water density of
휌
= 1026 kg/m
3
. The
submarine can be modeled as a cylinder with 50 m length and a
diameter of 10 m.
The sole material weight is 2500000
kg. Submarines load seawater as ballast to
dive. Without ballast water, the buoyancy force would keep it
floating. How much
percentage of the submarine volume need to be filled with ballast
water so that the
vessel can submerge so that...
Weight of the bottle= 1000g (1 Kg)
Volume in the bottle= 500ml
Gradually,The bottle is immersed in the freshwater
QUESTIONS:
1. Using the graph, find the apparent weight of the
object and using the formula from the picture
above calculate the density of the object.
2. Calculate the density of the object based on
parameters that you have set in the begging.
3. Compare the values obtained on (5) and (6) assuming
the value on part (6) as an actual...
The density of water is given as 1 g/cm3. Determine the specific volume in ft3/lbm. I got 0.077 ft^3/lbm, and it's wrong, I can tell. I'm using the specific volume equation, sv = 1/rho, by the way. Can someone provide insight into this?
The density of ice is 917 kg/m³, and the density of sea water is 1025 kg/m³. A swimming polar bear climbs onto a piece of floating ice that has a volume of 4.47 m³. What is the weight of the heaviest bear that the ice can support without sinking completely beneath the water? Number Units
Density of water = 998 kg/m^3
Molecular weight of CaCO3 = 100 g/mole
please help to solve this problem
Determine the concentration, molarity, normality, and mole fraction of a 2-L solution containing 50 g calcium carbonate (CaCO3). Assume that the density of water is based on a temperature of 20°C/68°F.
Water at 15 degrees Celsius (density=1000 kg/m^3; and dynamic
viscosity = 1.14x10^-3 kg/ m*s). Evaluate the reynolds number for
the internal flow in the following configuration.
Kiki is diving in salt water with a density of rho = 1025 kg/m^3. She has a mass of 56.0 kg and a volume of 0.0570 m^3. a) What is her density? b) If she is completely submerged in the water, what weight would she have to add to herself to achieve neutral buoyance? (Assume the volume of the weight is negligible.)
A 10xcmx10cmx10cm cube of density 650 kg/m^3 and is submerged in a container filled with water of density of 1000 kg/m^3. it is initially held at rest by a string which is attached to the bottom of the container. When we cut the string, the cube starts moving upwards. Find the initial acceleration of the cube, immediately after its release. Answer in units of m/s^
2. 95% of a wood block is submerged in water (density= 1000 kg/m). A layer of oil with a density of 880 kg/m' is now poured on top, to a depth that more than covers the block, as shown. Find the resulting new volume fraction submerged in water, V(in water) / V(block). Hints: (i) You get two buoyant forces - one for each liquid; Also note that (ii) volume, V(block) = V(in water) + V(in oil). d=880 kg/m² V =...