Introduction – When sodium bicarbonate and citric acid mix in water they dissolve, the sodium bicarbonate reacts with the citric acid to form sodium citrate and carbon dioxide. The carbon dioxide then bubbles out as a gas, which makes the bath bomb break up, in this experiment 3 tests will be conducted in order to find the correct ratio of bicarbonate soda and citric acid to create the perfect bath bomb. Background information – The reaction rate is the speed of reaction for a reactant or product in a particular reaction is intuitively defined as how fast or slow a reaction takes place. Reactions happen faster when the concentration is higher because more reactant molecules are available and therefore the collisions between reactant molecules are more likely. Aim – The aim of this experiment is to create an effective amount of carbon dioxide by mixing enough bicarb and citric acid to create the perfect bath bomb, to demonstrate a chemical reaction that produces a gas when reactants are in the correct state. Hypothesis – I hypothesise that we will need 5g of bi-carb and 3 grams of citric acid to create the perfect bath bomb Materials and Methods
Beaker (min. of 2)
60g bicarbonate of soda
30g citric acid
Electronic scale
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Thermometer
Water (room temperature)
Stopwatch
Safety Glasses
Method:
1. The beaker was filled with 100mls of room temperature water 2. The water was then measured using a thermometer
3. 1 gram of citric acid was placed in the beaker
4. 5 grams of bicarb was placed in the water-filled beaker
5. The timer was started as soon as the two ingredients were added 6. Steps 1-5 were repeated twice more
Steps 1-5 were repeated with 2 grams of citric acid and 5 grams of bicarb Steps 1-5 were repeated with 3 grams of citric acid and 5 grams of bicarb
This experiment, Chemistry of Bath Bombs was overall mostly controlled by using repetition; conducting all 3 trials in one room, with the same temperature in one lesson, controlled the temperature of the room. We measure the correct amount each time to ensure that nothing could have changed unless need be.
Risk Assessment
Risk
Prevention
Glass Breaking
Careful handling with two hands at all times
Pull rather than push on the glass
Spilling Chemicals
Standing up during the experiment will ensure that if the chemicals should spill they will spill onto the floor rather than skin. Use of safety goggles
Long haired tied back
Small amounts wherever possible
Hot Plate (burns)
Long hair tied back
Do not touch the plate
Always have access to cold water and an eye bath/shower
Results
Discussion
This experiment is an example of a common chemical reaction. The balanced chemical equation for bicarbonate soda and citric acid mixed into water is 3NaHCO3 + OH-C- (COOH)3 –> OH-C-(COO / Na)3 + 3 CO2 + 3 H2O. Every Water temperature before the experiment started was 21 degrees, the average time for the rate of reaction was 10 seconds, The hypothesis we will need 5g of bi-carb and 3 grams of citric acid to create the perfect bath bomb was correct. This was proven in the experiment when 5g of bicarb and 3g of citric acid was mixed with water, this mixture took the longest time to react and therefore would be a better product as a bath bomb.
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The first two experiments where 1-2 grams of citric acid was used shows that the average rate of the reaction was 10 seconds, however, when 3 grams of citric acid was used; the reaction took around 3-4 seconds more than the average. The factors that may affect the accuracy of the data include incorrect timing, incorrect measuring of the temperature and the amount of substances. The data was collected in one lesson over a period of approximately 50 minutes to ensure the data was accurate as possible. The data could’ve been improved by ensuring the timing was exact, the 100ml of water measure could have been more precise, and the 5g of bicarb and 3g of citric acid could have been exact by taking more time.
Conclusion
The findings of this investigation are that the appropriate amounts of chemicals needed to create the perfect bath bomb are, 5 grams of bicarbonate soda and 3 grams of citric acid. Three experiments each with different amounts were conducted to find these results and it was decided that the best bath bombs should take the longest time to react. As seen in the results the experiment which took the longest time to react was the 3rd one (5 grams of bicarbonate soda and 3 grams of citric acid).
Overall the experiment was a success as we found the correct ratio of bicarb and citric acid to create the perfect bath bomb
References
How do bath bombs work? | Q&A | Focus Magazine | Science and Technology. 2014. How do bath bombs work? | Q&A | Focus Magazine | Science and Technology. [ONLINE] Available at:http://sciencefocus.com/qa/how-do-bath-bombs-work. [Accessed 03 June 2014].
GCSE SCIENCE CHEMISTRY HIGH SCHOOL – What is Concentration – Moles – Calculating the Concentrations of Solutions – Titration – Sodium Hydroxide – Hydrochloric Acid – gcsescience.com.. 2014. GCSE SCIENCE CHEMISTRY HIGH SCHOOL – What is Concentration – Moles – Calculating the Concentrations of Solutions – Titration – Sodium Hydroxide – Hydrochloric Acid – gcsescience.com.. [ONLINE] Available at:http://www.gcsescience.com/m28.htm. [Accessed 03 June 2014].
Laboratory 12.3: Determine the Effect of Concentration on Reaction Rate | MAKE. 2014. Laboratory 12.3: Determine the Effect of Concentration on Reaction Rate | MAKE. [ONLINE] Available at:http://makezine.com/laboratory-123-determine-the-effect/. [Accessed 03 June 2014].
The Essay on Citric Acid, Vitamin From Citric Fruits
* Citric acid is a weak organic acid with the molecular formula C6H8O7, which means a molecule of the acid contains six carbon atoms, eight hydrogen atoms, and seven oxygen atoms. When it is dissolved in water, it partially ionizes to yield three H+ ions (hydrogen atoms which are missing their electron) and a C6H5O7(3-) ion (the 3- means that it has three extra electrons.) The resulting solution ...
PRL Overview. 2014. PRL Overview. [ONLINE] Available at:https://home.zhaw.ch/~fusa/PSS_VLE_C/CHAPTER_04/ACTIVITIES/PROBLEMS/Pages/P_10.html. [Accessed 03 June 2014].
Image:
Unknown , (2012), LushBathBombs [ONLINE]. Available at:http://selfprofessedproductobsessed.files.wordpress.com/2012/02/bath-bombs.jpg [Accessed 02 June 14].
