limiting reactants
Cards (11)
- Limiting Reactants
- It is rare to encounter a synthesis with exact stoichiometric amounts of reaction
- Issues of availability may result in an excess of easily accessible reactant and limited amounts of hard to procure reactants
- Limiting reactant is the reactant completely converted to products during a reaction
- When the limiting reactant is used up, no more product can form
- It determines the maximum possible amounts of product
- The moles of products formed are determined by the starting number of moles of the limiting reactant
- Identifying Limiting Reactants1. Must be done in a chemical reaction to determine the amount of products produced when all the limiting reactant is converted2. Can be identified using the Mole ratio method and Mass method
- Percent Yield
- Yield or reaction yield refers to the quantity of moles of a product formed in relation to the reactants consumed
- It is usually expressed as a percentage
- Shows the efficiency of a synthesis method
- Calculated using the formula: Percent yield = (Actual yield / Theoretical yield) x 100%
- To calculate percent yield, refer to page 85-86 of your Gen Chem 1 book and answer Problem-Solving Practice 3-20 and 3-21
- Gas Pressure
- One of the most important properties of gases is pressure
- Pressure is the amount of force per unit area
- SI unit for pressure is N/m2 or Pascal
- Pressure exerted by Earth's atmosphere is measured using a barometer
- Pressure measured using a barometer is usually reported in mm Hg or Torr
- Other units of pressure include standard atmosphere (atm) and Bar
- Conversion of pressure units: 1 atm = 760 mmHg = 760 torr = 101.325 kPa, 1 bar = 100000 Pa
- Kinetic-Molecular Theory of Gases
- Explains the common behavior and properties found among gases
- Gases can be compressed
- Gases exert pressure on whatever surrounds them or their container
- Gases expand into whatever volume is available
- Gases mix completely with one another
- Gases are des
- Kinetic-molecular theory of gases
- Explains the common behavior and properties found among gases
- Gases can be compressed
- Gases exert pressure on whatever surrounds them or its container
- Gases expand into whatever volume is available
- Gases mix completely with one another
- Gases are described in terms of their temperature and pressure, the volume occupied, and the amount of gas present
- Postulates of the Kinetic-Molecular Theory
- A gas is composed of molecules whose size is much smaller than the distances between them
- Gas molecules move randomly at various speeds and in every possible direction
- Except when gases collide, forces of attraction and repulsion between them are negligible
- When collisions between molecules occur, the collisions are elastic
- The average kinetic energy of gas molecules is proportional to the absolute temperature
- Ideal Gases
- Ideal gases behave exactly as described by equations relating pressure, volume, temperature, and amount of gas
- Most gases behave nearly ideally at room temperature and atmospheric pressure
- Equations that describe the relationship among the 4 variables of gases are called Gas Laws
- Pressure-volume (Boyle’s Law)
- Temperature-pressure (Charles’s Law)
- Amount-volume (Avogadro’s Law)
- Law of Combining Volumes (Gay-Lussac’s Law)
- Boyle’s, Charles’s, and Avogadro’s Law were combined and called the Ideal Gas Law
- Ideal Gas Law
- The ideal gas law summarizes the relationship among volume, temperature, pressure, and amount
- PV = nRT
- Where V = volume, T = temperature, n = amount in moles, P = pressure, R = ideal gas constant
- The ideal gas constant is used to make the proportionality among the variables into an equation
- Gases in Chemical Reactions
- When applying stoichiometry to gases, the law of combining volumes and the ideal gas law made it possible to use volumes as well as masses or molar amounts in calculations