Kategorier: Alle - bonds - energy

af Kanyanat wawsawad 8 år siden

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chemical reaction

During chemical reactions, old bonds are broken and new bonds are formed. Energy changes are a fundamental aspect of these reactions, occurring in forms such as heat, light, sound, or electricity.

chemical reaction

chemical reaction

Energy in Chemical Reaction


Energy Change During ReactionsDuring chemical reactions old bonds are broken and new bonds are made.

-Energy can be taken in from the surrounding.
- Energy can be given out to the surrounding.This energy can be in forms of:
- Heat
- Light
- Sound
- Electricity

∆H - the symbol of difference in energy. ∆ is Greek capital letter “delta”, and is used to mean, “change”. It is used in Science & Maths. H represents energy and is sometimes called “enthalpy”
∆H = energy of products – energy of reactants
If the reactants contain more energy than the products , heat is given out (exothermic) , and ∆H will be negative . If the products contain more energy than the reactants , heat is taken in (endothermic) , and ∆H will be positive . ∆H = energy of products – energy of reactants - ENDOTHERMIC = ∆H is positive - EXOTHERMIC = ∆H is negative
Exothermic:  Heat is given out  Reactants cool down  ∆H is negative
Endothermic:  Heat goes in  Reactants heat up  ∆H is positive
Energy Change During ReactionsDuring chemical reactions old bonds are broken and new bonds are made. -Energy can be taken in from the surrounding. - Energy can be given out to the surrounding.This energy can be in forms of: - Heat - Light - Sound - Electricity
When chemical bonds are broken energy is needed to break the bonds.

chemical equations

Every chemical has a symbol, alway begin with a capital letter; the 2 letter is alway small

Reactant - chemicals that start the reactant
Product - chemicals produced by the reaction

Ex: CO2 = 1 carbon + 2 oxygen
Reactant - chemicals that start the reactant Product - chemicals produced by the reaction

Chemical Reactions

metal + oxygen = metaloxide (General Equation)
Conclusion: metal + acid = salt + hydrogen Magnesium reacts with sulfuric acid to form magnesium sulfate and hydrogen: Ex: Mg (s) + H2SO4 (aq) = MgSO4 (s) + H2 (g) Magnesium Sulfuric acid Magnesium sulfate Hydrogen Metal Acid Salt Hydrogen

Conclusion:metal oxide + acid = salt + water -metal hydroxide + acid = salt + water -metal carbonate + acid = salt + water + carbon dioxide -

Reactions between Metals and Water Alkali metals – group 1 Ex: lithium + water = lithium hydroxide + hydrogen 2Li (s) + 2H2O (l) = 2LiOH (aq) + H2 (g) Lithium floats on water. It fizzes and becomes smaller until it disappears
Reactions between Earth Alkali Metals and Water Earth Alkali metals – group 2 Ex: magnesium + steam = magnesium oxide + hydrogen Mg (s) + 2H2O (g) = Mg(OH)2 (aq) + H2 (g)

Atomic Structure

Reaction between Metal and Oxygen
Metal + Oxygen (reactants) = Metaloxide (product)
Reactivity: Because of the atomic structure of the metals; Groups 1 and 2 are more reactive as you go down the group. Valence electrons are easier to get lose since they are further away from the nucleus; This means more reactive.
Potassium Atomic structure - 2,8,8,1 4 shells - Period 4 1 valence electron - Group 1