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The Effect of Selenium Concentrations on the Growth of Cancerous and Noncancerous Skin Cells
Kemi Adeleke - RMSST
Abstract: This project will test selenium on the growth of cancerous and noncancerous cells.
Purpose & Rationale: • The purpose of this research project is to test selenium on
cancerous and noncancerous cells to determine if it causes cell death.
• Those who consume selenium need to know the health effects it can cause.
Background Information: Selenium has been known to reduce the chances of developing cancer. Humans should consume about 55 mcg per day. But too much selenium can cause selenosis poisoning.
Methodology: There will be a low, medium, and high concentration of selenium tested on both cancerous and noncancerous cells. The control will have sterile PBS only. This will help show which concentration is recommended. Only live cells will be counted to show the effect the treatment had.
Data Interpretation: Descriptive: mean, mode, range, and standard deviation Inferential: ANOVA test and chi-square
Experimental Design Diagram Hypothesis: If selenium concentrations are tested on cancerous and noncancerous cells, the growth of these cells will vary. IV: selenium concentrations DV: number of viable cancerous and noncancerous cells
No concentration (control)
Low concentration
Medium concentration
High concentration
Cancerous Cells
4 trials 4 trials 4 trials 4 trials
Noncancerous cells
4 trials 4 trials 4 trials 4 trials
The Effect of the Type of Music Program on Level of Hearing loss
Kaegan Gregory RMSST
Purpose & Rationale
To determine whether a certain music program causes more hearing damage than others.
By defining what program causes the most damage
solutions for specific groups can be made.
Data Analysis 1. Bar graph for each group 2. Frequency distribution
3. Median 4. Kruskal-Wallace
Abstract Many musicians suffer from
hearing loss. Is this happening in our schools at this very minute?
Background Musicians in both classical
venues and modern discotheques suffer from
hearing loss.
Methodology Students will be tested at
50, 500, 1000, 2000, 3000, and 4000 HZ at 25 dB
Experimental Design
Diagram Hypothesis: Different music programs will have different levels
of hearing loss IV: Type of music
program DV: Level of hearing
loss Constants:
Audiometer used, students tested,
environment.
Band Chorus Non-Musicians
Levels 9th 10th 11th 12th 9th 10th 11th 12th 9th 10th 11th 12th
Trials
20 20 20 20 20 20 20 20 20 20 20 20
Abstract
IV: Concrete CompostitionCEMEX© Concrete (Control)
Custom Formulation #1: 6% Air, 11% Fly ash, 26% Bottom ash, 41% Boiler slag, 16% Water
Custom Formulation #2: 5% Air, 18% Fly ash, 20% Bottom ash, 37% Boiler slag, 20% Water
Custom Formulation #3:10% Air, 22% Fly ash, 30% Bottom ash, 24% Boiler slag, 14% Water
Custom Formulation #4:7% Air, 14% Fly ash, 25% Bottom ash, 34% Boiler slag, 20% Water
Custom Formulation #5: 12% Air, 20% Fly ash, 26% Bottom ash, 30% Boiler slag, 12% Water
Custom Formulation #6:4% Air, 12% Fly ash, 25% Bottom ash, 42% Boiler slag, 17% Water
2 Trials 2 Trials 2 Trials 2 Trials 2 Trials 2 Trials 2 Trials
IV: Cementitious Material
Portland Cement Type C Fly Ash Type C Fly Ash Type C Fly Ash Type C Fly Ash Type C Fly Ash Type C Fly Ash
1 Trial 1 Trial 1 Trial 1 Trial 1 Trial 1 Trial 1 Trial
IV: Aggregate
Sand Bottom Ash Bottom Ash Bottom Ash Bottom Ash Bottom Ash Bottom Ash
Gravel Boiler Slag Boiler Slag Boiler Slag Boiler Slag Boiler Slag Boiler Slag
1 Trial 1 Trial 1 Trial 1 Trial 1 Trial 1 Trial 1 Trial
DV: Performance of Concrete
Hypothesis: The byproduct concrete will vary compared to standard concrete in each of the tests.
Purpose and Rationale Background Info & Previous Studies
Methodology Data Interpretation Experimental Design Diagram
• Concrete samples for each group will be mixed
• Cementitious material and aggregate samples will be set aside for testing
• Setting Time and Compressive Strength tests will be conducted for concrete samples
• Fineness test will be conducted for cementitious material samples
• Soundness test will be conducted for aggregate samples
Purpose: • Create concrete using Type C fly ash,
bottom ash, boiler slag, air, and water Rationale: • Creating concrete using only byproducts
from coal-fired power plants can greatly reduce the carbon footprint as the byproducts are being recycled
• This project will test whether or not coal combustion byproducts can serve as an equivalent substitute for standard concrete, without sacrificing performance.
• CCBs (fly ash, bottom ash, flue gas, etc.) can be used in the manufacturing of other materials
• Fly ash is usable as a substitute for Portland cement, acting as a pozzolan and cementing material
• Bottom ash is a viable fine aggregate
• Descriptive: Continuous (Mean, Range, Std. Deviation), Ordinal, Median, Frequency Distribution
• Inferential: ANOVA, Chi-Square
Abstract: • This project will test how well ozone can
remove the pharmaceutical, penicillin, from water.
Ozone and Pharmaceuticals in Water Ashley Hong
Rockdale Magnet School for Science & Technology
Purpose: To test which concentration of ozone can best remove pharmaceuticals. Rationale: The pharmaceuticals can affect human health
Background: • Estrogen was found in the blood of male
fish near a wastewater treatment in Britain and Arizona.
• Penicillin is an antibiotic that is used for some injuries as well as sickness.
• Ozonation is an alternative for purifying water in wastewater treatment.
Methodology: The ozone generator will be built to add ozone into cold water with penicillin. Then, the water will be divided into four different samples: control, low, medium, and high concentrations of ozone. ELISA and zone of inhibition will be used to see if penicillin is removed from the water. The Spec20 will also be tested as well as absorption.
Data Interpretation: The data is both qualitative and quantitative. ANOVA and Chi-Square will be used to determine significant differences. Descriptive statistics such as mean, range, and standard deviation as well as mode and frequency distribution will be calculated.
Experimental Design Diagram Hypothesis: If ozone is added to the water with pharmaceuticals, then some of the pharmaceuticals would be removed.
IV: Levels of Ozone and Pharmaceutical Penicillin None (control) Low Concentration Medium
Concentration High Concentration
3 Trials 3 Trials
3 Trials
3 Trials
DV: Amount of pharmaceuticals removed (absorbance values, zone of inhibition, and color from ELISA test) Constants: level of pharmaceuticals in water, aseptic and culturing techniques, and time exposed.
The Inhibiting Effects of Different Treatments on Biofilms
Abstract Biofilms are hard to disinfect. This project will find new disinfecting methods.
Purpose and Rationale The purpose of this project is to find new treatment for disinfecting biofilms. Biofilms carry many infectious diseases. This project could help many people from getting infected.
Background information • Biofilms occur when bacteria
clump together on a solid surface. • Not even chlorine bleach can
completely disinfect them.
Methodology All bacteria will be grown into biofilms. Then all treatments will be applied in different amounts.
Data Interpretation Absorbency and colony counts are quantitative measurements and will be graphed. ANOVA will be done to determine significant differences. The mean, range and standard deviation will be found.
Hypothesis: There will be a significant reduction of the biofilms when exposed to different disinfecting methods. IV: Disinfecting Methods, Biofilms Aspergillus fumigatus
Serratia marcescens Staphylococcus
epidermidis
Licorice extract 3 3 3 Grapefruit seed extract
3 3 3
Steam 3 3 3 Bleach 3 3 3 Water 3 3 3 DV: Biofilm growth (colony counts and asorbance) Constants: Agar, culturing methods, aseptic technique
Lanaya Jackson RMSST
The Effect of Pharmaceutical Drugs on Daphnia and Water Willow Health
Kennedy Miller Rockdale Magnet School for Science and Technology
Abstract This project will test pharmaceutical drugs on aquatic life to see what health effects are produced.
Purpose To add the organisms and drugs to an artificial environment and observe health effects.
Rationale
Pharmaceutical pollution can cause serious damage to aquatic ecosystems.
Background Pharmaceuticals enter aquatic
systems through waste streams from waste water treatment plants.
Aquatic organisms in affected areas are exposed daily to dangerous concentrations of drugs.
Toxins build up and are transferred to humans as the organism is eaten.
Methodology Organisms are placed into artificial
environment Pharmaceutical drug is added to
appropriate tank with correct concentration
Observe health effects, record mortalities and compile data
Data Interpretation Descriptive: mean, mode, range,
standard deviation and frequency distribution
Inferential: ANOVA and Chi-square
IV: Concentration of pollutant
No Pollutant (control)
Low Concentration
Medium Concentration
High Concentration
Prilosec 29 trials 29 trials 29 trials 29 trials Xanax 29 trials 29 trials 29 trials 29 trials Aleve 29 trials 29 trials 29 trials 29 trials
Hypothesis: the pharmaceutical pollutants, Xanax, Prilosec and Aleve, will have a negative effect on the health of both Daphnia and Water Willows in the same affected area.
The effect of Hair Dye on Fetal Tissue Alexas Mitchell
Rockdale Magnet School for Science and Technology Abstract: This project will test the effect that hair dye has on fetal tissue.
Purpose and Rationale: • determine the effect of hair dye
on fetal tissue • it may cause damage to the
baby in the womb
Background: • Eugene Schveller discovered
hair dye in 1907 • Darker colors have higher
concentrations • Hair dye contains chemicals
similar to those in coal tar
Methodology: • Embryonic stem cells will be
used • Black, blonde, and red hair
dye colors will be used
Data Interpretation: • Descriptive- mean, standard
deviation, range • Inferential statistics- ANOVA
IV: hair dye colors Control: None Black
4 trials
Blonde Red 4 trials 4 trials 4 trials
Experimental Design Diagram Hypothesis: The darker the hair dye, the greater effect it will have on
fetal tissue.
DV: Viability of stem cells Constants: Aseptic technique, culturing methods, time of exposure