Substrate concentration basically means the amount used for the substrate. The substrate in our experiment was 0.1% hydrogen peroxide. The 0.1% is the concentration amount. Just like temperature and pH, substrate concentration can speed the reaction only up to a certain limit. When we mixed pH 3 enzyme tube with substrate tube, we used 0.3 mL of hydrogen peroxide, but if we were to increase the amount, then the experiment would have been faster.
purpose the propose of this experiment was too see if the chemical reaction of a enzyme can be made faster. Hypothesis I think that a warm environment would be best to make an enzyme’s reaction faster. because a protein can move faster in heat. Materials -pan -50ml graduated cylinder -hydrogen peroxide -air stopper -water Graphs data A time 12 drops 8 drops 0 0 0 30 0 0.5 60 0 1 90 0 1 120 0 1 150 0 1 180 0 1.5 210 0 1.5 240 0 1.5 270 0 1.5 300 1 1.5 330 2 1.5 360 2 1.5 390 3 1.5 420 3 1.5 450 3 2 480 3 2 510 3 2 540 4 2.5 570 4 2.5 600 5 2.5 Data B time cold warm 0 0 0 30 1 1 60 2 1 90 2 2 120 2 2 150 2 2 180 2 2 210 2.5 2 240 3 2 270 3 2 300 3 2 330 3 3 360 3.5 3 390 3.5 3 420 3.5 3 450 3
In the sodium iodide test, the alkyl halide is added to sodium iodide in acetone. In this test, primary halides precipitate the fastest while secondary halides need to be heated in order for a reaction to occur. Comparison of the rates of precipitation of the obtained product to standard 1° and 2° bromide solutions will show whether the product is a primary or secondary
As a result the presence of the enzyme catalase in the cell helps to quickly convert this toxic substrate into safer products of water and oxygen (All Science Fair Projects, 2004). Hypothesis: According to the Collision Theory, in order for a reaction to occur, particles need to collide with a sufficient amount of energy and with the correct orientation. The temperature of the particles can affect the rate at which the particles collide. As you increase the temperature, the rate of reaction increases. This occurs because as you heat a substance, the particles move faster and
The particles move faster when they contain thermal energy that is in the form of heat. The change in thermal energy of a substance means a change in its temperature. Hot substances have high thermal energy while cold substances have low thermal energy. You can actually see this in water. Let’s say you are making spaghetti.
My main question is: At which temperature will children 's multivitamins dissolve the quickest when placed in water at different temperatures (0°C,50°C and 100°C)? My hypothesis for this question is that the children 's multivitamin will dissolve differently when placed under different water temperatures.I predict that the multivitamins will dissolve very fast when placed in the hot water ( in this experiment 100°C), and will dissolve very slowly when placed in the ice cold water (in this experiment, 0°C).My prediction is based on alot of things that are dissolvable.Dissolve more quicker in hot water than cold water as it has more concentration.
Hypothesis: Increasing substrate concentration will increase the initial reaction rate until it stops increasing and flattens out. Independent Variable: Substrate concentration Dependent Variable: The substrate itself, 1.0% Hydrogen Peroxide How Dependent Variable will be Measured: Hydrogen Peroxide will be used in every experiment, just with different test tubes. The amount of Hydrogen Peroxide in the mixing table is the amount that will be added to each test tube. Rationale: Enzymes are used to make reactions faster. When there is more substrate the enzyme will be forced to work harder to get rid of it faster.
The boiling point of the solution will be higher than that of the pure solvent itself. The boiling point of a liquid is the temperature at which its vapor pressure is to equal the atmospheric pressure. When a solute is added there are less solvent molecules near the surface and the solvent’s vapor pressure will decrease, so the vapor pressure of the solution will be less than that of the solvent. For the vapor pressure to reach the atmospheric pressure, a higher temperature must be reached, which means the boiling point is elevated. According to this theory, adding salt to water would make the boiling point higher, and make it harder to reach the boiling point.
That is, the higher the temperature of the solvent (water), the more solute (salt) that will dissolve in it. In this experiment, we will study the solubility of potassium nitrate (KNO3) in water. You will dissolve different quantities of this salt in a given amount of water at a temperature close to its boiling point. Which solution will be
CH2O2 is corrosive which chemically damaging to living tissue. The boiling point of the water increases when NaCl is added to it but the ice point of water decreases when NaCl is added to it. Our result supports the hypothesis where the boiling point increases from 96 °C to 99.5 °C. However the result for the ice point increases when NaCl is added. In this experiment, the accuracy using various of volumetric glassware pieces and the proper usage of basic laboratory equipment were determined.