Laboratory glassware

|Experiment 2. The gas produced in respiration | | | |[pic] | |(a) Label two boiling tubes A and B and place a known weight or number of living organisms in A. | | |Place an equal quantity of dead or non-living material in B. | | |Cover the mouth of each tube with a piece of aluminium foil. Press firmly into place round the rim| | |of the tube. | | |Leave the tubes for at least ten minutes. | | | | | |(b) Use a graduated pipette or syringe to place 2 cm3 lime water in each of two clean test-tubes | | |and label these A and B. | | | | | |(c).

You are provided with a syringe attached to a glass delivery tube drawn out to a fine point. | | |Check that the syringe plunger is pushed fully down in the barrel. | | | | | |(d) After the experiment has been running for ten minutes or more, push the delivery tube, still | | |attached to the syringe, through the foil cap of tube B. Keeping the point of the delivery tube | | |close to the side of the boiling tube to avoid damaging the organisms, insert the delivery tube | | |into the midst of the organisms (see Figure 1). Withdraw the syringe plunger to fill the syringe | | |with air from the boiling tube.
|(e) Place the syringe and delivery tube in test-tube B containing lime water so that the delivery | | |tube is below the level of the liquid and gradually depress the plunger so that the air from the | | |syringe bubbles slowly through the lime water (see Figure 2 p.2.02). When all the air has been | | |expelled from the syringe, remove the delivery tube, close the mouth of the test-tube with your | | |thumb (or a cork) and shake the tube thoroughly for a few seconds. | | | | | |(f) Repeat the operation from (d) for boiling tube A, using test-tube A of clear lime water. | | | | | |(g) Compare the appearance of lime water in the two tubes. |

|Experiment 2. The gas produced in respiration | | | |[pic] | |(a) Label two boiling tubes A and B and place a known weight or number of living organisms in A. | | |Place an equal quantity of dead …

Experiment 14. Dehydrogenase in yeast During respiration, hydrogen atoms are removed from glucose molecules by enzymes called dehydrogenases and passed to various chemicals called hydrogen acceptors. As the hydrogen atoms pass from one hydrogen acceptor to another, energy is made …

During respiration, hydrogen atoms are removed from glucose molecules by enzymes called dehydrogenases and passed to various chemicals called hydrogen acceptors. As the hydrogen atoms pass from one hydrogen acceptor to another, energy is made available for chemical reactions in …

Materials: 2 water baths 2 rulers 2 thermometers ½ mL of germinated seeds (in each syringe) 2 syringes ½ mL non-absorbent cotton (in each syringe) ½ mL absorbent cotton (in each syringe) KaOH (3 drops in each) 2 capillaries tubes …

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