The uncertainty associated with measuring volume using a 100 ml beaker is typically around 1 ml.
The uncertainty of a 500mL beaker typically lies within ±5 mL. This means that the actual volume of the beaker could be 495mL or 505mL. It's important to consider this uncertainty when making measurements or conducting experiments using the beaker.
Well, darling, a 250 mL beaker filled with 100 mL of water would have a mass of approximately 100 grams. Water has a density of 1 g/mL, so 100 mL would weigh 100 grams. The beaker itself doesn't add any weight, unless you're counting the weight of your expectations.
The beaker scale typically ranges from 50 ml to 2000 ml, with various sizes in between. Beakers are commonly found in sizes such as 50 ml, 100 ml, 250 ml, 500 ml, and 1000 ml, but they can come in larger or smaller sizes depending on the manufacturer.
A 100ml beaker is used for holding up to 100 ml of a substance/fluid. Often this is in a laboratory environment. The contents could be the input into some work or the output/result of an experiment or process.
a beaker have 100 ml of water and 5 grams of salt
The volume of a beaker does not provide enough information about its dimensions. It could be thin and tall or squat and short.
The uncertainty in measuring volume is directly related to the precision of the measuring device. A 150 ml beaker has a larger capacity, which means that the volume markings on it are further apart and have larger increments. This results in a higher degree of uncertainty when trying to measure a specific volume. On the other hand, a 10.0 ml graduated cylinder has smaller increments and therefore allows for a more precise measurement of volume, leading to lower uncertainty.
A beaker capable of holding 500ml
ml
To find the density of the oil, we first determine the mass of the oil. The total mass of the beaker with the oil is 140 g, and the mass of the empty beaker is 60 g, so the mass of the oil is 140 g - 60 g = 80 g. Density is calculated as mass divided by volume, so the density of the oil is 80 g / 100 mL = 0.8 g/mL.
No, the uncertainty of a graduated cylinder is typically based on its smallest graduated division. Therefore, the 100 ml graduated cylinder would have a larger uncertainty compared to the 10 ml graduated cylinder.