1 / 15

The Effect of Sugar Concentration In Water On The Growth Of Plant

The Effect of Sugar Concentration In Water On The Growth Of Plant. Bjay Hyun. Problem Statement/Hypothesis. Will the sugar concentration affect the pinto bean plant growth? If the concentration of sugar levels in water increases then plants will grow less. Basic Concepts You Should Know.

aurora
Download Presentation

The Effect of Sugar Concentration In Water On The Growth Of Plant

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Effect of Sugar Concentration In Water On TheGrowth Of Plant Bjay Hyun

  2. Problem Statement/Hypothesis • Will the sugar concentration affect the pinto bean plant growth? • If the concentration of sugar levels in water increases then plants will grow less.

  3. Basic Concepts You Should Know • Photosynthesis - process by which plants, some bacteria, and some protistans use the energy from sunlight to produce sugar, which cellular respiration converts into ATP, the "fuel" used by all living things. • Sugar - Sugar is sucrose, a molecule composed of 12 atoms of carbon, 22 atoms of hydrogen and 11 atoms of oxygen. Also, a sugar is a carbohydrate. It is found mostly in plants. • Water - Water's chemical description is H2O, two Hydrogen atoms and one Oxygen atom formed by a covalent bond. They tend to clump together, and molecules attract each other. Water has three states, liquid, solid and ice. It is colorless and has no smell. It can dissolve into substances better than any other liquid. Through ground, bodies and takes along chemicals, minerals and nutrients just like for plants. • Pinto Beans - The scientific name for this bean is called Phaseolusvulgaris.

  4. Design Diagram • LEVELS - Plants watered by 2 g/100ml, 4 g/100ml, 6 g/100ml, (3) ,Plants without sugar (1) • TRIALS – 10 for each Level • IV: The amount of sugar in water - (grams) • DV: The weight of the plant - (grams) • CONSTANTS: Same amounts of dirt/water, sunlight, temperature and location of the plant. • Materials - 40 pinto beans, Soil bought from the market (Natural, Organic, Tomato, vegetable plant mix) • Foil cups of the same size, where the plants are planted in the soil, A weighing device to weigh the mass of plant. • Regular Sugar, bought from the market. • Regular tap water. • A digital camera to take pictures of my experiment and materials. • Water giving bottle (for plant) • Plate. • A measuring cup to measure amount of water to be watered. • Wooden sticks to hold up the plant if it gets taller

  5. Procedures • Prepare all the materials. • Bring out a plate. • Put beans on a plate. • Pour water on the plate until it covers half of the beans. • Wait until the beans have grown a slight root coming out of the bean • When the beans have grown a root, plant each bean in different plastic cups with soil. • Place holes under the cups to let the water flow. • Place the cups at the indicated area where sunlight can be reached. • Place a aluminum plate below the cups to avoid water flood. • Water each plant with 100ml cup once every three days consistently with different concentrations of sugar depending on the level. (2 g/100ml, 4 g/100ml, 6 g/100ml) • If the plant gets tall, support it with a wooden stick to avoid bending of plants. • After the experimental time, December 4th prepare to weigh the grown plants. • Place each individual cup and dump out the soil until only the plant remains. • Remove all possible soil sticking to the plant. • Measure the plant with a triple beam balance. • Record the data results. • Repeat steps 13 ~ 16 for all of the rest of cups.

  6. Overall Data Results

  7. Averages of Data As you can see, there is a clear difference between the growth of plant in water verses the growth of plant in sugar concentrations

  8. Statistical Analysis • Used Statistical Analysis method: ANOVA • ANOVA: Results________________________________________________________________ • The results of a ANOVA statistical test performed at 15:49 on 30-DEC-2010. •  Source of     Sum of       d.f.    Mean         F Variation      Squares              Squares  between      21.18         3      7.062        18.18      error         13.99         36    0.3885      total         35.17         39________________________________________________________________ • The probability of this result, assuming the null hypothesis, is 0.000 • I have a p value of < .001 thus meaning that the null hypothesis can be rejected.

  9. Photodocumentation Start of Experiment when plants were all healthy Middle of Experiment when Plants started to smell and grow fungus in soil and die

  10. Photodocumentation (Continued) End of the experiment when I started to weigh the plants with the triple-beam balance

  11. Graph of Averaged Data(XY Scatter Plot)

  12. Conclusions • The plants grown in water were mostly healthy, while the plants grown in the different levels of sugar concentration were smaller, and most of them died. Small amounts of sugar (less than what I've experimented with) usually does not affect the plant's growth. But if the amount of sugar in the soil becomes too high, it promotes a higher incidence of fungi and bacteria, which causes an increase risk of infection to plants. It was clearly shown during the experiment that plants can grow with sugar, but after a period of time, the excessive amounts of sugar leftover creates bacteria and fungi that kills the plants.

  13. Conclusions (Continued) • Sources of error: • Human errors – This could have occurred anytime during the experiment where inaccurate measurements or calculations were made. • Conditions of beans – From the start of the experiment, each bean had different sizes and weights, and different health conditions. • Placement of beans – The bean plants did not have a good placement because even though it had a stable temperature and was exposed to sunlight, there was not enough sunlight for the plant to grow healthy, which was probably a reason why the plants were not as healthy. • Improvements that could be made: • Use better measurement tools and technology to get better results. • Use similar beans (in size and weight) next time to minimize errors within the results. • Place them in a better area next time where the plants can see more sunlight so it lives more healthy. • Place the plants outside where it could live in the natural environment.

  14. Conclusions (Continued) • Extensions • The effect of sugar concentration on the growth of plant (With more precise levels ranging from less than a gram to number of grams) • The effect of amount of sunlight on the growth of plant • The effect of temperature on the growth of plant • Test with different kinds of plants other than pinto beans • Why Did I do this Experiment • I did this experiment because I wanted to figure out if when we come out of McDonalds or any stores and we have leftover soda, we could give the drink and water it to the plants; If this experiment worked. Many drinks have sugar concentrations. Also, photosynthesis is related to sugar, where sugar is converted to ATP for energy, so I was curious to know the results.

  15. Thank you to… • Me and my parents for following the project. • Audience • Mrs. P for helping with the project and the triple-beam balance

More Related