Photosynthesis Investigation to find effects of distance of a light source from pond weed has on the amount of oxygen producedPhotosynthesisAll green plants need to be able to make their own food. They do this by a process called photosynthesis. For photosynthesis to occur they need sunlight energy. This energy is absorbed by a green pigment called chlorophyll, which is mainly found in the leaves. This energy then combinEs with water molecules (from the soil) and carbon dioxide (from the air).
Then as a result of this, a type of sugar is produced.
This is called glucose. Also oxygen is made. For my experiment I have chosen to use light distance as my variable. This means that to carry out a fair test everything else must be kept the same during the experiment. Hypothesis I think that as the light source (desk lamp) is moved closer to the pondweed, the rate that oxygen is produced will increase therefore more oxygen will be produced and also more glucose. I believe this will happen because when the the light source is nearer to the plant more of the plants surface area is coming in to contact with the light from the desk lamp therefore more photosynthesis will occur which will mean more oxygen and glucose will be produced.
The Essay on Oxygen Bubbles Photosynthesis Light Test
Classwork Wednesday, 08 October 2003 Photosynthesis Exploration Aim - To see how changing the light intensity affects the rate of photosynthesis. Prediction - I predict that as the amount of light is reduced (lamp steadily being moved away), the rate of photosynthesis will slow down. Consequently the nearer the lamp is to the plant, the more oxygen bubbles are produced. Hypothesis - The reason I ...
Apparatus Funnel. o Measuring cylinder. o Stop watch. o Card board and foil (used to fill ter the light).
o Beaker. o Desk lamp. o one metre ruler stick. o Balance. o Pondweed. o Carbon dioxide Powder.
o Water. o Scapular. Fair Test To ensure that a fair test is carried out the following things must be done The same pondweed must be used every time we change the light distance. o Do th e experiment three times for each distance to get an accurate average. o There must only be one variable and that is the distance of the light source from the plant. o Chose a value for carbon dioxide mixture and keep at the same value all the way through the experiment (3 grams).
o Keep the experiment at a constant 20 degree (this is because more oxygen is produced at this temperature).
o Take results after three minutes for each individual experiment. Safety Follow lab safety rules (eg no running bags at back etc).
o keep the desk lamp away from contact with water.
o Be careful when using scapular. Methods Collect apparatus. o Set up apParatus as in diagram. o Fill measuring cylinder and beaker with water. o Add carbon dioxide mixture to water.
o Set up desk lamp in correct position (eg 10 cm).
o Turn on desk lamp and start stopwatch. o Count the bubbles for the next three minutes and also make a note of the change in volume. o Record your results.
o Repeat experiment twice more for distance 10 cm and then do the same with distance 20, 30, 40, 50, 60, 70, 80, 90, and 100 cm. Results These are my results Because my results did not go entirely to plan (because my pondweed was not photosynthesis ing quick enough) I have been given a past years results which I will now usS as my results instead. They are as follows-Analysis Looking at my results a can see a significant increase in the rate of photosynthesis as the distance decreases. All of the results I was given show this pattern. In the experiment when the distance was 50 cm there was not much photosynthesis taken place only about 13 bubbles of oxygen were produced, but when the desk lamp was 0 cm away a lot of photosynthesis was occuring on average 184 bubbles in three minutes a quite difference from 50 cm, overall it was a quite significant increase. I be live This is because when the desk lamp is close tho the pondweed more of the pondweeds surface area has light energy shining upon it which means more photosynthesis will occur in a shorter time.
The Term Paper on Spectrometer Experiment
The aim of this experiment is to use two kind of spectrometer to identify the atomic spectra of different atoms. We learned to use the calibration curve obtained from a known spectrum or measure the angle of diffraction to find out the wavelengths of unknown spectral lines. Background Emission Spectrum As we know, every atom has a set of discrete energy levels occupied by its electrons. A photon ...
The average no. of bubbles for different distances -Looking at my results it is quite evident that the number of bubbles produced is much greater when the distance of the pondweed from the desk lamp is less. This proves that my original hypothesis was correct that ‘as the distance decreases of the desk lamp from the pondweed therefore more oxygen bubbles are produced’. As i mentioned before this is because there is more light energy shining on a greater surface area when the desk lamp is closer so therefore greater surface area equals more photosynthesis.
Evaluation I think that on the whole my experiment was ok. The results i gathered were very odd i be live this is because of the poor quality of the pond wed we used. But with the set of results we were given we were able to calculate a curate averages which followed my prediction. I be live our measurements were about as accurate as we could get us ill ou ng the apparatus that we did. We experienced quite a few problems throughout our experiment. These were first of all in our first experiment our pondweed was not of a high standard and was photosynthesizing very slowly the only way we could have got around this problem without using new pondweed would be to leave the experiment for longer.
Another problem we encountered was the change in temperature when the desk lamp was close to the pondweed because we could not do anything to am mend this we had to accept any slight change in our results. another problem we faced was counting the bubbles when the plant was the bubbles were different sizes, but as talked about in my data we overcame this problem by counting every individual bubble as one. speed hussain.