A standard 100 ml beaker would be about 70~75 mm tall.
Of course, this depends on the beaker ... Although beakers are generally cylindrical in shape, with a flat bottom, there are two main types.
Standard or "Low-form" beakers typically have a height about 1.4 times the diameter. "Tall-form" beakers have a height about twice the diameter.
250 ml beaker
The 12 cm beaker. (it has more exposure to the atmosphere)
4 L / 150 ml = 4000 ml/150 ml = 26.67 so 26 can be filled.
100 cc is 100 ml 1 cc= 1ml
use molarity M=mol/l u have to convert grams to moles u need to know what the substance is
The volume of a beaker does not provide enough information about its dimensions. It could be thin and tall or squat and short.
The mass of 100 ml of standard water under standard conditions is 100 grams, regardless of what it's in. We have no way of knowing the mass of the empty beaker.
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.
It depends on how it is manifactured, and on what measurements (thickness, highth, diameter).If you want to know, you should (always) first weight that particular beaker clean and empty before filling it with the matter of which you want to know the mass.
a beaker have 100 ml of water and 5 grams of salt
A beaker capable of holding 500ml
ml
in ml
There's something missing from the question. It could be the part that was supposed to make it challenging. -- Fill the 40-ml beaker. -- Use it to fill the 30-ml one. -- Now you have 10 ml in the 40-ml beaker. -- Pour the 10 ml into the 200-ml beaker. -- Do all of that again. -- Now you have 20 ml in the 200-ml beaker. It doesn't matter what size the 200-ml beaker is. You don't need that number at all.
You can't. There are an infinite number of different beakers, all with different areas and different lengths, that all hold 100 ml. The volume doesn't tell the dimensions.
250 ml beaker
Because the opening is large so more water is heated.