Beet Root Experiment
By: Mike • Essay • 1,256 Words • November 13, 2009 • 7,097 Views
Essay title: Beet Root Experiment
I predict that as the temperature is raised the number of molecules that are able to leave the cell and come into the solution will increase, however I think that there will be appoint at which the amount of molecules coming out will remain constant.
Red beet tissue contains large amounts of betacyanin, a red pigment, located in the large internal membrane vacuoles. When the membrane is damaged, the pigment can cross the vacuole membrane and cell membrane. Since pigment is water soluble and not lipid soluble, it remains in the vacuole when the cells are healthy. If the integrity of a membrane is disrupted, however, the contents of the vacuole will spill out into the surrounding environment. This usually means the cell that made the vacuole is dead.
Variables.
Age of beetroot.
The age of the beetroot needs to be controlled as to prevent inaccuracies. The older the beetroot the more betacyanin and anthocyanins molecules present. This will therefore make the experiment unfair, because the more pigment molecules present the more pigment molecules that can move out of the cell. Therefore the beetroot used should be freshly cut.
pH
The pH is also an important factor, as pH can have an effect on the weak interactions and bonds that bound the membrane together. To keep the pH constant it is important to make sure that the same surrounding are used for the experiment.
Surface area.
The surface area of the beta vulgaris is another important factor as the greater the surface area of the beta vulgaris, the greater the concentration of pigment molecules the beta vulgaris will hold. It is therefore important that all the pieces of beta vulgaris used be of the same length and diameter.
Light intensity.
It is important that the investigation is carried out in the same light intensity because the absorption will be different for different intensities.
Colorimeter.
The same colorimeter should be used throughout the experiment to make sure that the accurarcy to which the results are given are of the same degree. Also, it is important to use the blue filter at all times as this gives the % light transmission of 0.
The solution into which the pigment molecules diffuse.
This is also a variable that needs to be controlled, organic solutions such as ethanol are also disruptive for the plant membrane, and therefore it is best to use a neutral kind of solution, such as water. I will use distilled water throughout the experiment so that the investigation is kept fair.
The variables that I will control are the ones listed above, the one that I am going to investigate is temperature I will increase the temperature in 5OC intervals.
Even though there is a link between my prediction and that of the data collected, it is difficult to say whether my hypothesis is correct, this can only be found out by further experimentation. Further experimentation would include repeating this experiment with the modifications suggested and a look at further factors that should affect the permeability of plant cells. One example would be to look at other plant cells apart from Beta vulgaris, or to loo at how factors such as surface area and age of Beta vulgaris affect the permeability of their cells.
The main source of error was the colorimeter itself, firstly, it was unable to remain on a constant percentage for very long. At times it would give the % transmission of water as 98 or 101%. Which shows that it had tendencies to give inaccurate results. Also I think that as many people were using the same colorimeter and spillages did take place it is possible that water went into the colorimeter which would raise an obvious source of error.
Also, as there were errors in the investigation, this is what led to anomalies, so even though the equipment used such as the stopwatch, measuring cylinders and ruler read to a good accuracy, they are still able to cause a considerable amount of error in our results.
The reliability of data and its accuracy are dependant on the apparatus used, and its accuracy.
Readings were taken as accurately as possible, using the apparatus at hand. For example when using the measuring cylinder, or filling up the beakers with water, I made sure that the bottom of the meniscus touched the line marked 250ml, or 6ml.
Also,