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∙ 14y agodensity = mass/volume
mass = 245-200= 45 grams
volume 26 mL
= 45g/26ml
=1.7 g/ml
Wiki User
∙ 14y agoThe increase in mass is 45g (245g - 200g) due to the added liquid. This corresponds to a volume of 26ml because 1g/ml is the density of water (and marketed) liquids. Therefore, the density of the liquid is 45g / 26ml = 1.73 g/ml.
Mass of unknown liquid = 142.01 g - 105.56 g = 36.45 gVolume of unknown liquid = 45.5 mldensity = mass/volume = 36.45 g/45.5 mldensity = 0.801 g/ml
No, the density of the liquid will not change based on whether parts of the solid stick out of the water. Density is solely determined by the mass and volume of the liquid present, regardless of the shape of the solid object in the liquid.
That depends entirely on the liquid. If you are mixing salt into water, then yes. But only if you mix in enough. Fresh water has a density of 1.0, while saltwater has a density of 1.025. The more salt, the higher the density. Since the egg's density stays the same, you should get it to float if you mix in enough salt.
A burette is a long, graduated glass tube used in the laboratory for delivering specific volumes of liquid reagents with high precision. It is commonly used in titration experiments to measure the volume of titrant added to the analyte solution.
When heat is added to a liquid, it can either increase the temperature of the liquid, causing it to expand, or it can cause the liquid to evaporate and change into a gas.
Mass of unknown liquid = 142.01 g - 105.56 g = 36.45 gVolume of unknown liquid = 45.5 mldensity = mass/volume = 36.45 g/45.5 mldensity = 0.801 g/ml
The mass of the graduated cylinder was measured at the beginning of the experiment to determine the empty weight of the container before any other substances were added to it. This allowed for the accurate calculation of the mass of the liquid poured into the cylinder by subtracting the initial empty mass from the total mass measured after the liquid was added.
A graduated cylinder is used to accurately measure the volume of a liquid. It is commonly used in laboratories for tasks such as making precise measurements for experiments, determining the concentration of solutions, and ensuring accurate amounts of liquid are added during procedures.
Well, that depends on what cylinder you are using. For example, a graduated cylinder is used to measure the volume of a liquid, the measure of a solid by displacement, or for measuring quantities of volumes to be added into a mixture or chemical reaction.
No, the density of the liquid will not change based on whether parts of the solid stick out of the water. Density is solely determined by the mass and volume of the liquid present, regardless of the shape of the solid object in the liquid.
The mass of water added is 110 g minus the initial empty cylinder mass. The mass of the rock is the total mass of 250 g minus the mass of the water and empty graduated cylinder. The density of the rock can then be calculated using the mass of the rock and its volume (37 mL - 30 mL).
after 5.63 gm sample of wood metal was added in a 10ml graduated cylinder the new water level is 8.7ml "http://wiki.answers.com/Q/Was_the_water_in_a_cylinder_before_the_sample_was_added" after 5.63 gm sample of wood metal was added in a 10ml graduated cylinder the new water level is 8.7ml "http://wiki.answers.com/Q/Was_the_water_in_a_cylinder_before_the_sample_was_added"
A little hard when you didn't give us the original water level...
A measuring cylinder also called graduated cylinder is laboratory glassware used to measure the volume of liquids. Some of its functions are the following: it is used at home when there is a need to measure volume of liquid ingredients required for a recipe and itÕs also used to accurately measure liquids used in chemistry or biology laboratories.
Volume of iron shot added = 48.39 ml - 39.99 ml = 8.40 ml mass = density × volume = 7.92 g/ml × 8.40 ml = 66.528 g ≈ 66.5 g
The volume of the stone is equal to the difference in water levels before and after the stone was added, so the volume of the stone is 85mL - 50mL = 35mL. To find the density, divide the mass of the stone (75.0g) by its volume (35mL). The density of the stone is 75.0g / 35mL ≈ 2.14 g/mL.
The volume of the object is the difference in water level before and after the object is added, which is 10 ml (30 ml - 20 ml). The density of the object is mass divided by volume, so 2g / 10 ml = 0.2 g/ml. Therefore, the density of the object is 0.2 g/ml.