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What happens during cellular respiration? - OCR 21st CenturyCalculating rates of respiration

All cells need energy to survive. They obtain this energy by carrying out a series of chemical reactions that are collectively known as respiration.

Part of Biology (Single Science)Using food and controlling growth

Calculating rates of respiration

The rate of respiration in yeast

Yeast can be used to investigate how the rate of respiration changes when different are used. For example, yeast can use glucose directly in respiration, or it may first have to break down other carbohydrate substances such as or to release the glucose that can be used in respiration.

The rate of a reaction can be calculated by measuring how much product is made in a specific amount of time. Carbon dioxide will be produced when yeast respires. This is a gas. The carbon dioxide can be collected using the equipment in the diagram below.

Experiment showing the rate of respiration in yeast

An example method that might be followed to investigate the rate of respiration is:

  1. Set up an inverted measuring cylinder in a water bath so that the cylinder is full of water and clamp into position.
  2. Add 20 cm3 of water to 1 g yeast and 0.5 g glucose and stir. Add this mixture to the round-bottomed flask.
  3. Place a rubber bung with a delivery tube into the neck of the round-bottomed flask and place the flask in a water bath at 40掳C.
  4. Wait for five minutes for the yeast to begin respiring at a constant rate.
  5. Bubbles should now be emerging from the end of the delivery tube. Place the end of the delivery tube under the open end of the measuring cylinder and start the timer.
  6. Record the volume of gas produced after 3 minutes.
  7. Repeat steps 1 to 6 twice more.
  8. Repeat steps 1 to 7 using the other carbohydrate mixtures.

The amount of carbon dioxide released by the yeast in three minutes can be compared for each of the carbohydrates. The more carbon dioxide that was released in three minutes, the faster the rate of respiration with that carbohydrate substrate.

Question

To be able to compare results we need to ensure that control variables are kept the same during the experiment. Name two control variables for the experiment above.

Calculating rates of respiration

Question

In an experiment, Sarah found that 1 g of yeast produced 20 cm3 of carbon dioxide in three minutes when using glucose as a substrate.

What was the rate of respiration in cm3 of CO2 per minute when using glucose?

Question

Using the table below, which substrate was the best for the yeast in terms of releasing energy quickly? Explain your answer. [3 marks]

Carbohydrate substrateRate of respiration (cubic cm of carbon dioxide per minute)
Glucose5.3
Sucrose3.1
Starch0.5
Lactose1.2
Carbohydrate substrateGlucose
Rate of respiration (cubic cm of carbon dioxide per minute)5.3
Carbohydrate substrateSucrose
Rate of respiration (cubic cm of carbon dioxide per minute)3.1
Carbohydrate substrateStarch
Rate of respiration (cubic cm of carbon dioxide per minute)0.5
Carbohydrate substrateLactose
Rate of respiration (cubic cm of carbon dioxide per minute)1.2