•There are many apparatus that are used for measuring purposes in the laboratory. These include:
•Pipettes
•Burettes
•Measuring cylinders
•Thermometers
•Weighing balances
•Syringes
•Stop watches
a) Pipette
A pipette is a narrow glass tube into which small amounts of liquid are sucked in for transfer to other containers.
A liquid in a pipette adheres to the side of the tube and forms a curved surface called a meniscus.
How to use a pipette
Activity 1
(i) Using
your mouth or a pipette filler, suck a liquid from a container to the
level above the pipette mark then stop using a finger.
N.B: If sucking is done with your mouth make sure that you control the liquid in such a way that no liquid enters your mouth.
(ii)Regulate
the volume of the liquid by gently releasing a finger till the base of
the liquid is exactly at the mark on the pipette.
(iii) Make
sure that the pipette is straight and the eye is directed to the
meniscus of the liquid, at a right angle with the pipette (see figure
1.2)
Apparatus for measuring of volumes (Measuring Syringe)
b) Measuring syringe
Alternatively,
in the absence of pipette, a medical syringe can be used to measure
volumes of liquids. It is cheaply sold in medical shops.
Activity 2
i) Press down the piston of the syringe to zero mark.
ii) Insert/dip the syringe into the liquid to be drawn, followed by pulling up the piston to suck the liquid up to the desired mark.
iii) To pour the liquid into another container, slowly press down the piston to empty the liquid.
c) Burette
A
burette is a long cylindrical graduated tube with a stop cork near its
bottom end. It is commonly used for measuring and dispensing known
amounts of liquids during titration. Figure 1.4 shows an example of
a burette.
How to use a burette
Activity 3
i. Always rinse with a solution to be used.
ii. Fill the burette to the mark.
iii. Make sure that the nozzle part is filled with the solution.
iv. To record the volume, make sure that you read at the bottom part of the meniscus as is it is shown in figure 1.5.
Equipment for measuring mass (Triple beam balance) cont.
How to use triple beam balance
Activity 4
Step 1
Calibrate
the scale by sliding all three sliding masses to the right hand side of
the beams. Twist the zero adjustment knob (zeroing screw) until the
balance pointer lines up with the fixed zero mark, as shown in figure 1.7.
Step 2
Place
the object to be weighed on top of the pan (measurement tray); this
will make the pointer to move upward above zero mark. See Fig 1.8.
Step 3
Slide 100 g
beam mass one notch at a time until the pointer drop to or down the
zero mark (Make sure the mass is locked in the particular notch). If the
pointer lines up with zero mark, record the mass as the mass of your
object. If it drops down the zero mark, move it back to the left hand
side just one notch.
For example, if your object weighs 373.3 g, the pointer will drop down the zero mark on the fourth notch when moving 100 g beam mass. Move the mass back to the 3rd notch (ie 300 g). This will make the pointer to move back and point above zero mark.
Step 4
Slide
the 10-gram beam mass right one notch at a time. When the pointer
drops below zero mark, move the mass one notch to your left hand side
(or right hand side of the beam).
For
above example, the pointer will drop down the zero mark on the 8th
notch and so you will be supposed to slide it back one notch to 7thnotch (70 g).
Step 5
Slide the 1-gram beam mass slowly across the front beam. (Note: there are no notches on this beam so keep an eye on the pointer while sliding the mass). Stop sliding when the pointer lines up with zero mark. Considering above example, the pointer will line up at 3.3g. See Fig.1.9.
Heat Sources (Bunsen burner)
Parts of Bunsen burner
Barrel (Chimney)
The
barrel is a vertical metal cylinder that is mounted to a base and is
the main body of a Bunsen burner. When the burner is activated, flame emerge from the top of the barrel.
Gas inlet
Gas
inlet is a metal piece that protrudes from the side of the Bunsen
burner at the bottom. When its end is connected to a rubber tube the gas
passes from its source to the barrel.
Collar
The
collar is a short, hollow cylinder that encircles the lower part of the
barrel. Its function is to open or close the air holes. When the air
holes are closed, a luminous flame is produced. Half-open or full open
air-holes produce a nearly invisible, blue-coloured flame commonly
called non-luminous
How to use the Bunsen burner
Activity 6
i) Connect the rubber tube of a Bunsen burner to the gas tap
ii) Rotate the collar to close the air holes of the Bunsen burner.
iii) Light a match and immediately open the gas tap and light the gas at the tip of the barrel. A yellow flame will be observed
iv) To
get the blue flame, rotate the collar in order to leave the air holes
open. This gives a hotter, non-sooty flame suitable for heating purposes
Charcoal burner
In
absence of a Bunsen burner, spirit burner, charcoal burner, gas stove,
kerosene stove and moto poa stove can be used as heat sources.
Other heat source
- Kerosene stoves
-Spirit lamp
Electric hot plate
Summary
Laboratory
is a place for carrying scientific experiments. For experiments to be
properly done they need special apparatus and equipment. There are
apparatus and equipment for measuring volumes, lengths, temperatures and
masses. Also there are apparatus and equipment used as heat sources.
Some equipment and apparatus are delicate and hence, they need to be
handled carefully. Proper measuring is needed in order to obtain
accurate scientific data. However, in some laboratories there may be no
equipment or apparatus for specific purpose. In this case, is
improvisation is important.
Resources
South
Carolina University and MoEVTZr (2010), Chemistry for Secondary
Schools, Form 1&2, Oxford University press Tanzania Ltd, Dar es
Salaam.
Hakuna maoni:
Chapisha Maoni