Using a 10 ML graduated cylinder you can read 2 decimal places. This is also measuring volume.
One mL
One if you fill it 100 times or 100 individual full graduated cylinders.
A 10mL graduated cylinder has graduations between each milliliter that denote 0.1mL and allow an uncertainty that is lower that 0.1mL. Because a 150mL beaker doesn't likely have many graduations, the degree of uncertainty is far greater, usually well over 1mL. Beakers are designed to hold a volume and its graduations are only meant to give an approximation while graduated cylinders are specifically designed to deliver large amounts of volume with little uncertainty.
10ml
Water
Because the smaller the cylinder the more accurate the measurement.
A graduated cylinder is just a tall cylinder with a little spout that tips out, and has markings in 1-10mL spans.
It depends on the smallest unit. For a 10mL graduated cylinder, the smallest unit is usually 0.1mL while a 100mL graduated cylinder is usually 1mL. Therefore: 10mL= (0.1mL/2) is an uncertainty of 0.05mL 100mL=(1mL/2) is an uncertainty of 0.5 mL Another way to think of it is that there are ten 10mL cylinders in an 100mL cylinder, so the 100mL cylinder has an uncertainty of ten times the 10mL. Hope this helped!
A graduated cylinder is a type of glass container used in laboratories for measuring volume. A 10 mL graduated cylinder can only hold up to 10 mL of liquid.
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"
Technically, as long as both are 'accurate,' both are acceptable. However, we don't live in an ideal world. In a 10mL graduated cylinder, the height difference between 1mL is visible, where in a 1L (1000mL) graduated cylinder, 1mL of difference isn't quite visible.
whitch of the following volumes is the samllest ?
You take a graduated cylinder,or anything you can measure water in, and put water in it. You drop the marble in and the change in water height is your volume. For example if the cylinder is filled up to 10ml and after you drop in the marble it goes to 15ml then the marble has a volume of 5ml cubed.
Glass Graduated Cylinders
Depends on the weight of the glass. The water weighs 10 grams if filled to the 10 ml mark - more if overfilled, of course.
One mL
It depends on how much liquid (by eying it up) and what accuracy you want in your reading.In a lab, if you are dealing with between 1 and 10ml, you can use a graduated pipette (this is more accurate than a graduated cylinder).If smaller than 1ml, you could use a micropipette or a microsyringe (micropipette better).If larger than 10ml, you may be able to find a graduated pipette that goes above 10ml but they are uncommon in standard labs.In this case, you would use a graduated cylinder (beaker graduations are very misleading and are error prone)If you have a graduated cylinder, beaker, measuring cup, etc. feel free to use that. Sometimes when using a graduated cylinder or beaker the liquid will have a dip. It might look kind of like a trampoline that's being stepped on (although it can also be upside down). This is called a meniscus. If there is a meniscus, always take the measurement of the tip of the curve.If you don't have one of those tools you can take the measurement of the volume like length*width*height (depending on the shape of the container). If you can get this volume in cubic centimeters, one cubic centimeter is equal to a millimeter.--------------------------------------------------------In chemical laboratories frequently are used pipettes, syringes and burettes.Some delivering systems are very sensible, down to 1 microlitre.