When trying to measure the
volume of an irregularly shaped object, the "water displacement method"
is the most commonly used technique and the one you will use most often
in this chemistry course.
|
The procedure for the water
displacement method is listed below.
PROCEDURE:
1) Find a graduated cylinder
that will be large enough to fit the object(s) being measured
2) Fill this graduated cylinder
enough so that when placed in the graduated cylinder, the object(s) in
question will be fully submerged in the water. Also be careful not to
put in so much water that the water level will rise past the graduated
cylinderÕs markings when the object(s) are placed in the graduated cylinder.
You must use your own judgment to determine what amount of water meets
these requirements
3) After filling the graduated
cylinder to a satisfactory level, record the volume of the water as (a)
in your data. Make sure to read the meniscus when determining volume.
4) After the waterÕs volume
has been recorded, carefully place the object(s) in the graduated cylinder
and record this volume as (b) in your data
5) In order to calculate
the volume of the irregularly shaped object(s), subtract the volume of
the water alone from the volume of the water and object(s) [(b) Š (a)].
|
HINTS & TIPS:
* Note that if the object(s)
are not fully submerged in the water, the recorded volume of the object(s)
is invalid.
* Also, if placing the object(s)
in the graduated cylinder causes the water level rises past the graduated
cylinderÕs markings, an accurate reading cannot be made.
* Always mass the object(s)
before determining volume with the water displacement method. By massing
the object(s) after placing them in water, one allows the chance for water
to remain on the object(s) after being removed from the graduated cylinder.
This could result in the water being massed and, in turn, lead to a source
of error.
* Use the smallest possible
graduated cylinder that is sufficient for measuring the object(s). Smaller
graduated cylinders are oftentimes capable of making more accurate measurements
than larger graduated cylinders
* The object(s) being measured
should not be dropped into the graduated cylinder. This could result in
water splashing onto the sides if the graduated cylinder. This waterÕs
volume would go unrecorded and alter the recorded volume of the object(s)
in question resulting in a source of error.
|
|
|
Lab