Since the density of mercury (5427 kg/m³) is greater than the density of water (1000 kg/m³ or 1.0 g/cm³), mercury will sink in water. Objects with higher density than the fluid they are in will sink, while objects with lower density will float.
The denser liquid (1.1 gmL) will sink below the less dense liquid (1.0 gmL). The liquids will form two distinct layers in the cup based on their densities, with the denser liquid at the bottom and the less dense liquid on top.
The density of lead is approximately 11.34 grams per milliliter.
The density of Benzoic Acid is approximately 1.27 g/mL at room temperature.
well, gmL equals "gram per centimeter cubed" and a decigram is 10 grams, so, 10 times as much as 19.3 (19.32). but you want how many decigrams per liter, so you have to divide 19.3 by 10 to get : this is your answer: 1.93 decigrams
yes it would sink because its more dense than water
A density of 0.2 g/ml is less dense than water, so an object with this density will float on water.
The object would float in the salt water since its density is less than the density of the salt water. Objects with a lower density than the fluid they are placed in will float, while those with higher density will sink.
The object would float in fresh water since its density is lower than that of water (1.0 g/mL). The object displaces an amount of water equal to its weight, which is less than the weight of water it displaces, causing it to float.
Aluminum will sink in water because its density (2.7g per cc) is greater than water (1.0g per cc). A solid object would only float if it displaces more mass than it weighs (i.e., its density is less than water).
An object will float in water if its density is less than 1 g/mL, meaning it is less dense than water. Conversely, an object will sink in water if its density is greater than 1 g/mL, indicating it is denser than water. Density is a useful property for predicting whether an object will float or sink in a fluid like water.
The object would float in the salt water. This is because the object's density (1.12 g/cm3) is less than the density of the salt water (1.35 g/mL), making it less dense than the surrounding medium and causing it to float.
A substance with a density of 0.95 g/mL would float on water but sink in oil. Both water and oil have higher densities than 0.95 g/mL, so the substance would displace an amount of liquid in proportion to its own weight, leading it to float in water and sink in oil.
Since the density of mercury (5427 kg/m³) is greater than the density of water (1000 kg/m³ or 1.0 g/cm³), mercury will sink in water. Objects with higher density than the fluid they are in will sink, while objects with lower density will float.
As a general rule, anything that is more dense than the medium they are floating in will sink and things that are less dense than the medium will float. So, if you are looking into whether or not 0.85 g/ml will sink or float in water, which has a density of 1.0 g/ml, then the answer is it will float. The mechanism that will keep the object afloat is the bouancy of the medium. The force of bouancy is equal to the weight of the displaced fluid.
The denser liquid (1.1 gmL) will sink below the less dense liquid (1.0 gmL). The liquids will form two distinct layers in the cup based on their densities, with the denser liquid at the bottom and the less dense liquid on top.
If an object with a density less than 1.0 g/mL is placed in water with a density greater than 1.0 g/mL, it will float. This is because objects with a lower density than water will displace an amount of water equal to their own weight, causing them to float.