Density and weight-(or mass) are two completely different things, density is how
close the atoms or molecules are packed together, the object still has the same mass
since the number of atoms present is the same, but the volume the atoms take up in
space can vary. so no, density doesnt effect the weight of a liquid since the
prinicples above explain.
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Answer #2:
Of course it does! When you have equal volumes of two substances,
the sample of the substance with the greater density weighs more.
The buoyant force acting on the solid in the liquid is 40 N, which is equal to the weight of the liquid displaced. The weight of the solid in water can be calculated by using the relative densities of water and the liquid (0.8) in the relation: weight in water = weight in liquid * (relative density of liquid / relative density of water).
The density of a liquid affects the buoyancy of an object by determining whether the object will float or sink in that liquid. If the density of an object is greater than the density of the liquid, the object will sink. If the density of the object is less than the density of the liquid, the object will float.
The pressure on the surface of a liquid depends on the depth of the liquid and the density of the liquid. The pressure increases with depth due to the weight of the liquid above and also depends on the density of the liquid.
An object will float if it has less density than the density of the liquid.An object will float if it has less density than the density of the liquid.An object will float if it has less density than the density of the liquid.An object will float if it has less density than the density of the liquid.
DEnsity of the liquid . Density of the floating object Temperature Remember the Principle of Archimedes. 'The weight/mass of a body i,,ersed im a fluid is euqla to the weight/mass of the fluid displaced'.
no
Pressure and Temperature will affect volume and thus also density. However the effect is much smaller than on gases (about 100-1000 times), it is mostly a bit bigger than the effect on solids.
The buoyant force acting on the solid in the liquid is 40 N, which is equal to the weight of the liquid displaced. The weight of the solid in water can be calculated by using the relative densities of water and the liquid (0.8) in the relation: weight in water = weight in liquid * (relative density of liquid / relative density of water).
That depends on the liquid. To get the MASS, multiply the volume by the density. To get the WEIGHT, multiply the mass by the gravity.
You must first know what at specific volume of that liquid weighs, for instance water weighs about 8.34 pounds per gallon then 20 pounds of water would be 2.39 gallons. To break it down to ounces and pints or quarts you need a conversion table.
The density of a liquid affects the buoyancy of an object by determining whether the object will float or sink in that liquid. If the density of an object is greater than the density of the liquid, the object will sink. If the density of the object is less than the density of the liquid, the object will float.
The weight of the copper in the liquid is equal to its weight in air minus the weight of the liquid displaced. Using the weight difference, we can find the volume of the liquid displaced. Then, using the volume and the weight of the liquid displaced, we can calculate the density of the liquid, which in this case would be 8.93 g/cm3.
Yes
Yes, it is possible.
Yes, the density of a liquid can affect its droplet shape. A higher density liquid tends to form more rounded droplets, while a lower density liquid may form more flattened or elongated droplets due to differences in surface tension forces.
15 ml of liquid does not have a direct conversion to pounds since weight and volume are different measurements. The weight of 15 ml of liquid will depend on the density of the substance. You would need to know the density of the liquid in order to convert volume to weight.
The pressure on the surface of a liquid depends on the depth of the liquid and the density of the liquid. The pressure increases with depth due to the weight of the liquid above and also depends on the density of the liquid.