Chemistry - Rates of Reactions Flashcards
Rates of reaction are measured by tracking either the increase in the amount of product formed or the decrease in the amount of reactant used, over time. This can be done using changes in mass, volume, or concentration.
Define rates of reaction
Rate of reaction is the change in the concentration per unit of time of any one reactant or product
Key Terms
Define rates of reaction
Rate of reaction is the change in the concentration per unit of time of any one reactant or product
How are rates of reaction measured?
the formation of a product per unit time can be measured
the loss of a reactant per unit time can be measured
How to calculate average rate of reaction?
Average rate of reaction = Amount of substance formed or lost/ time taken for that to happen
What is ment by instantaneous rate of reaction
the rate of a reaction at any one particular time during the reaction
how to find instantaneous rate of reaction from a graph
draw a tangent to the curve at time asked
choose two good points.
find slope using formula
What dertimes weather a reaction does or does not take place
Reactants will collide with each other when mixed.
These reactats have a certain amount of energy.
if the colliding reactants meet the requir...
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| Term | Definition |
|---|---|
Define rates of reaction | Rate of reaction is the change in the concentration per unit of time of any one reactant or product |
How are rates of reaction measured? | the formation of a product per unit time can be measured |
How to calculate average rate of reaction? | Average rate of reaction = Amount of substance formed or lost/ time taken for that to happen |
What is ment by instantaneous rate of reaction | the rate of a reaction at any one particular time during the reaction |
how to find instantaneous rate of reaction from a graph | draw a tangent to the curve at time asked |
What dertimes weather a reaction does or does not take place | Reactants will collide with each other when mixed. |
What is activation energy | The minium combined energy of colliding particles for effective collisions/ for an reaction to take place |
What is mean by an effective collision | A collision that reached activation energy and results in the formation of products |
Draw out an large activation energy reaction profile diagram | reactants |
Describe the energy of products vs reactants in an exothermic reaction | energy of products is less than energy of reactants |
Describe the energy of products vs energy of reactants in an endothermic reaction | energy of products is greater than energy of reactants |
Name the 5 factsots affecting the rate of a reaction | 1-Nature of reactants |
Describe the nature of the reactants (Type of bonding) that occours involving ionic compounds in solution | Reactions involving ionic compounds in solution are faster. |
Describe the nature of the reactants (Type of bonding) that occours involving covalent compounds in solution | Reactions involving covalent compounds have slower reactions |
How does particle size affect the rate of a reaction, and explain why | How does particle size affect the rate of a reaction, and explain why |
Dust explosions present a risk in industry, Give five conditions necessary for a dust explosion to occour | particles must be combustible |
How does concentration of reactants affect the rate of a reaction, explain the reason | Increasing concentration increases rate of reaction -More concentrated solution has a greater number of particles. |
What is the relationship between Concentration and the rate of reaction | directly proportional |
Why does the rate of a chemical reaction generally decrease with time | as reaction proceeds, more reactants are used up, concentration decreases. Less frequecy of collisions, less effective collisions, less collisions reach activation energy |
In the expeirment showing the effect of particle size of calcium carbonate in HCl, describe the difference between whole marble chips vs ground marble | smaller particle size - had a greater rate of reaction, steeper slope. The smaller particle size levels off first( reaction finishes off first) Both the reactions rise to the same height eventially- both produce the same amount of product. |
In the expeirment showing the effect of concentration on rate of reaction between calcium carbonate and HCl, describe the difference between 2 M HCl and 1M HCl | The Higher conc of HCl - higher conc reaction has a greater rate of reaction. The higher concentration reaction levels off first (finishes first) Reactions with double concentration of reactant rise to twice the height - produce twice as much product |
How does temperture affect the rate of a reaction and explain the reason. | Increasing temerture increases the rate of reaction. 1.Increasing temp increases the energy of the particles (More effective collisions - more collisions reach required activation energy) |
Given the two reasons why temperture increases the rate of reaction, which is more significant? Explain | Increasing the energy of the particles. |
What effect does increasing/decreasing temperature have on the activation energy of a reaction? | None |
Describe the procedure to study the effect of concentration on reaction rate using sodium thiosulfate and hydrocloric acid | using a graduated cylinder, add a fixed volume of sodium thiosuldate to concial flask. The conical flask has a 'X' drawn on the bottom with a marker. Then add dilute HCl quickly to the sodium thiosulfate. The conical flask is swirled and stopwatch is immediately started. |
How is rate caluclated | rate of reaction is the reciprocal/ inverse of time |
plot a graph for the reaction between sodium thiosulfate and HCl | best fit line through the origin |
explain the relationship between rate of reaction and concentration of solution | rate of reaction is directly porportional to concentration of solution. |
Why is it essential the same volume and concentration of HCl are used during each reachtion To study the effect of concentration on reaction rate using sodium | only one variable can be changed in order for the expeirment to be a faur test. All other vairables must be fixed |
Identify the precipate in this reaction? Descibe its apperance To study the effect of concentration on reaction rate using sodium | Sulfur - precipates as a fine pale yellow powder |
describe how the reaction time in measued in this expeirment? describe how you could determine when the same mass of sulfur has been formed To study the effect of concentration on reaction rate using sodium | The conical flask has a X drawn on bottom. |
explain the signifinance of using the same shaped conica flask during each run To study the effect of concentration on reaction rate using sodium | Only one vairable can be change to ensure a fair test. |
Describe this procedure To study the effect of temperature on reaction rate using sodium | Using a graduated cylinder, add a fixed volume of sodium thiosulfate to a conical flask. |
Explain the relationship between rate of reaction and temperture To study the effect of temperature on reaction rate using sodium | as temperture increases, the rate of reaction increases exponentially.
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Why is a water bath preferable to bunsen burner/directly heating with hot plate To study the effect of temperature on reaction rate using sodium | it is easier to obtain a desired temperture using a water bath- allows for more gentle heating |
What is a catalyst | a substance that alters the rate of a chemical reaction without being used up in the reaction |
explain why the presence of catalyst can speed up the rate of reaction | a catalyst lowers the activation energy required for an effective collision providing an alternative pathway for a reaction to occour. lower activation energy means more effective collisions- more collisions reach the required activation energy. |
compared to an energy profile of an exothermic reaction,describe the changes that occour with a catalyst | the activation energy is lowered, same amount of peroducts, The ΔH value does not change. -ΔH |
List the properties of catalysts | 1.Chemically unchanged at the end of an reaction 2.Only required in small amounts 3.specific to a certain type of chemical reactions. 4.can be inactivated by catalytic poisons 5.Brings a reversible reaction to eqilibrium more quickly but does not affect the state of equilibrium |
What is an enzyme | biological catalyst that is protein in nature |
Name two examples of enzymes | Catalayse Amylase |
How could you reduce the rate of a chemical reaction that takes place in solution | lowering the temperture- cooling mixture lowering conc of reactants- dilution the reaction micture adding an inhibitor |
Name the three types of catalysis that can occour | homogenous catalysis heterogenous cataysis Autocatalysis |
What is homogenous catalysis and name an example | in which the catalyst is in the same phase as the reactants and products. eg esterification |
what is hetrogenous catalysis and name an example | in which the catalysis is in a different phase to the reactants and products eg. haber process |
What is auto catalysis and name an example | in which one of the products of the reaction acts as a catayst for the reaction. eg. titrating potassium manganate against iron II solution |
Breifly describe the procedure for Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst 1.Heat sprial of platium wire in a numsem burner and heat the methanol to 60C in a fumehood. 2.Place a cardboard t-shape covered in aluminium foil in a conical flask. With a sprial of platinum wire above methanol |
Describe the observations during the reaction Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | The sprial of platinum goes through cycles of glowing red hot and then dimming Popping sounds are heard the smell of methanal (formaldehyde) |
What is the purpose of the cardboard T piece and why is it wrapped in luminium foil Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | the cardboard T piece acts as a chimney allowing waste gasses formed to be swept away its wrapped in aluminium foil to prevent the cardboard from being burned |
explain why the sprial of platinum glows red hot Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | the reaction is exothermic |
Explain why the sprial of platinum glows then ceass glowing for a while before becoming red hot again Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | Carbon Monoxide is a waste gas formed from the incomplete combustion of methanol- it poisons the platinum catalyst when the carbon monoxide gas is swept away, the catalyst can begin working again |
Explain the popping or mini explosions sounds that can be heard Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | the formation of hydrogen gas (hydrogen ignited with a pop) |
Give three major products of this reactions Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | Methanal (formaldehyde) Water Hydrogen gas |
What type of catalysis is involved in this reaction?Explain Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | Heterogenous catalysis- the solid platinum catalyst is in a different phase to the reactants and products |
Explain one way in whcih the presence of the platinum catalyst speeds up the oxidation of the hot methanol Observing the effect of a catalyst – oxidation of methanol using platinum wire as catalyst | the catalyst lowers the activation energy required for an effective collision providing an alternative pathway for a reaction to occour. Lower activation energy means more effective collisions- more collision reach the required activation energy |
Name the two mechanisms of catalysis | Internediate formation theory Surface adsorption theory |
Describe the mechanism for intermediate formation theory | One of the reactants reacts with the catalysts to form an intermediate compound the intermediate compound is not stable and tempoary- it reacts with the other reactant to form the final product with the catalysts regenerated |
What does intermediate formation apply to | homogenous catalysis (reactions in solution) |
brefiely explain the procedure to demostrate intermediate theory - oxidation of potassium sodium tartate by hydrogen peroxide catalysed by cobalt II ions | set up the conical flask with cobalt chloride crystas to potassium tartrate soltuion in it. plate on hot plate. note pink colour. Add some hydrogen peroxide to the beaker. |
State obervations Evidence for the intermediate formation theory - oxidation of potassium sodium tartrate by hydrogen peroxide catalysed by cobalt (II) ions | Pink colour turns green Effervesence/fizzing is observed the fizzing ceases and the green colour returns to pink |
EXPLAIN how these obervations provide evidence for intermediate formation theory Evidence for the intermediate formation theory - oxidation of potassium sodium tartrate by hydrogen peroxide catalysed by cobalt (II) ions | initial pink caused by Co2+ ions pink to green to pink again suggests an intermediate substance is formed which is tempoary. The effervesence of the green solution suggests that the internediate substance is reacting and forming product |
What product is cause this effervesence Evidence for the intermediate formation theory - oxidation of potassium sodium tartrate by hydrogen peroxide catalysed by cobalt (II) ions | CO2 |
What property of catalysts is shown by the solution returning to a pink colour? Evidence for the intermediate formation theory - oxidation of potassium sodium tartrate by hydrogen peroxide catalysed by cobalt (II) ions | Catalysis are chemically unchanged by the end of the reaction-Co2+ iosn still present |
What type of catalysis is involved in this reaction?Explain Evidence for the intermediate formation theory - oxidation of potassium sodium tartrate by hydrogen peroxide catalysed by cobalt (II) ions | Evidence for the intermediate formation theory - oxidation of potassium sodium tartrate by hydrogen peroxide catalysed by cobalt (II) ions |
What is adosrption | the attachment of liquid or gaseous molecules to a solid surface |
Describe the mechanism of surface adsorption theory | Adsorbtion-the reactants attach onto the surface of the catalysts, forming temporart bond Reaction- the reactants are now in high conc on the surface of the catalysts and are more likely to collide the Bonds within the reactant molecules are weakened and the collision of reactants are more likely to be effective Desorption- the product is formed and leave the surface of the catalysts |
What type of catalysis is the mechanism surface adsorption | Heterogenous catalysis |
Explain why the reaction rate is greater when powered platinum is used instead of larger pieces of platinum Surface adsorption theory | A powdered platinum has a larger surface area exposed - greater frequency of collisions will occour- more effective collisions |
Explain how a catalyst poison makes a catalyst inactive | a catalyst poison is preferentially adsorbed onto to catalyst surface and forms a permanent bond with it. It is unable to desorb and blocks the reactants from adsorbing on the surface preventing their reaction |
What is a catalytic converter | A catalytic converter is a devide in the exhause of a motor vehicle that uses catalysts to convert harmful gases in the exhausts into less harmful gases |
Name the three elements used as catalysts in catalytic converters | Platinum (Pt) Palladium (Pd) Rhodium (Rh) |
Comment on the shape of a catalytic converter | honeycomb shape for larger surface area |
Give the name of three harmful substances that enter a car's catalytic converter and name the substances that they are converted to by the catalysts mentioned | Carbon monoxide - Carbon Dioxide NOx compounds (eg Nitrogen monoxide)- Nitrogen gas Hydrocarbons (CxHy) - Carbon Dioxide (Co2) + water (H2O) |
Give three environental benefits of a catalytic converter in cars | carbon monoxide, nitrogen monoxide and nitrogen dioxide - poisonous 2.Nitrogen Monoxide contributed to acid rain 3.Hydrocarbons - cause smog and contribute to greenhouse effect |
Name two substances that poisions the catalysis in a catalytic converter | Lead compounds Sulfur compounds |
What type of catalysis is involved in a catalytic converter? Explain | Heterogenous catalysis- the solid catalysis is in a different phase to the reactants and products |
Breifly explain the procedure of monitoring the rate of production of oxygen from hydrogen peroxide using manganese dioxide as a catalyst | Magnesium Oxide added to Hydrogen peroxide from a small test tube in conical flask. mixture is shaken and simultaneouly, a stopwatch is started. The Oxygen gas produced is collected over water using a beehive shelf. vol of O2 measured at regular intervals |
Explain the general trend in the curved obtained when a graph of volume of oxygen vs time is plotted | Beginning- Slope steepest – reaction occurring at its fastest rate, most volume of gas produced per time Middle- Slope becomes less steep - reaction slows down, less volume of gas produced per time End- Slope is 0 - reaction is finished, no more gas produced |
Write a balanced equation for the catalysed decomposition of hydrogen peroxide using To monitor the rate of production of oxygen from | H2O2 --(MnO2)--> H2O + 1/2O2 |
what is the apperance of the maganese dioxide catalyst To monitor the rate of production of oxygen from | Black powder |
How is it ensured the stopwatch is started at excatly the same time as the reaction starts To monitor the rate of production of oxygen from | The Manganese dioxide is added to the hydrogen peroxide from a small test tube in the conical flask The mixture is shaken, and the stopwatch is started at excatly the same time |
What chemical hazard symbols are associated with i) hydrogen peroxide ii) manganese dioxide? | i) Oxidiser- keep away from other substances ii) Irritant- wear gloves |
What effect would increasing the mass of the catalyst have on the rate of reaction? Explain | no effect, they are only required in small amounts |
Wat type of catalysis is involved in this reaction? Explain To monitor the rate of production of oxygen from | Heterogenous catalysis- the solid magnesium dioxide catalyst is in a different phase to the reactants and products |
Name and describe the mechanism for the action of the manganese dioxide in speeding up the To monitor the rate of production of oxygen from | Surface adsorbtion theory Adsorption - The hydrogen peroxide reactants are adsorbed onto the surface, forming temporary bonds Reaction - The hydrogen peroxide reactants are now in high concentration on the surface of the catalyst and are more likely to collide The bonds within the hydrogen peroxide molecules are weakened and collisions of reactants are more likely to be effective i.e. the activation energy is lowered iiDesorption - The water and oxygen products are formed and leaves the surface of the catalyst |