Use a fine balance.
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∙ 9y agoYou would determine its mass using a mass balance.
The SI unit would be grams, however considering a blade of grass is pretty small I would probably measure it in mg, milligrams.
A small metallic paper clip has a mass of a little over one gram.
Metric ruler
meter stick
A small rock besides a pebble could be a cobble. Cobble typically refers to a stone between 2.5 and 10 inches in diameter.
Pounds.
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.
Mary will need a balance to measure the weight of the stone, a ruler to measure its dimensions, and a calculator to determine the density using the formula Density = Mass / Volume.
It would depend on the atmospheric pressure.
Yes, definitely the stone will also attract the earth when it is either thrown up or is falling down. But the mass of the stone is very small as compared to that of the earth, and since the force is directly proportional to the mass of the object, the force with which the stone attracts the earth will be negligible as compared to the force with which the earth attracts the stone.
Yes, the acceleration due to gravity on both small and big stones is equal because it depends only on the mass of the Earth and the distance from its center. The mass of the stone does not affect the acceleration due to gravity.
how would you find the mass of 250 mL of water
You would determine its mass using a mass balance.
Mass of a pony
You can't. The same mass can have a lot of different volumes, depending on the substance. Examples: A kilogram of stone or lead has a small volume. A kilogram of water has a medium volume. A kilogram of the air inside your house has a large volume.
well something with large capacity and small mass is a ballon but I cant think of anything that would be the opposite.... My math assignment told me to figure out something with large mass and small capacity but its just too hard.... hope you find a answer and post it when u do!!!