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plunger
So that there wouldnt be any air in the syringe. because if just a little bit of air is injected into your body, you'll die
Syringe is the thing with the pointy tip and the injection is the way you insert drugs into the body (via syringe).
what is 0.16 ml in a syringe
This is a badly phrased question. 3 cc = 3ml. a millilitre is a centimetre cubed and that is exactly what cc means. if the syringe takes a max of 3ml, then 3.125 is a full syringe and a 1/24th of a syringe
when you push the plunger are the air particles closer together in the syringe or in the bubble
When you push the plunger of a syringe down into a marshmallow, it puffs up with air. When you pull the plunger of the syringe up while it is in the marshmallow, it will shrink.
It means to give an injection now. Think of "pushing" a plunger on a syringe.
The mass in the syringe, as you push down the plunger.
Measure to the edge of the plunger (or piston) where it touches the inside of the syringe cylinder. http://www.northcumbriahealth.nhs.uk/palliativecare/clinical/syringe/05.php
he pushes the plunger so that he removes the air molecules from the syringe and make it vacuum and then puts it in the medicine and pulls the plunger so that the liquid rises without the air molecules getting in the syringe (arjun)
It feels hard because all of the air particles are getting closer and closer so they are trying to push the plunger up for more room.
It feels hard because all of the air particles are getting closer and closer so they are trying to push the plunger up for more room.
To ensure that the plunger can move and not stuck. Because if it is stuck, when the gas goes into the syringe, the plunger will not move back and so the values you received will be lower than the actual value
when forceis applied to the syringe plunger air particles are still evemly distributed in and around the cube. but the partiles are closer together. the cubes are not the same size
If you push the plunger of a syringe filled with air and let go, it will come back up again! :) :P
The pressure generated by a syringe is a result of how hard the plunger is pushed and the internal diameter of the needle, not the size of the syringe.