Bayeux Tapestry essays

Bayeux Tapestry essays William, Duke of Normandy was promised by his cousin, King Edward to be the next King of England after the Death of King Edward, but instead Harold Godwinson took the throne. Harold Godwinson was the second most powerful man in England and an advisor to Edward. Harold and Edward became brothers-in-law when the king married Harold's sister. With Harold becoming an even more powerful man and becoming an in-law to King Edward, Harold was a strong candidate for the throne. His claim was strengthened when the dying Edward supposedly uttered "Into Harold's hands I commit my Kingdom." With this kingly endorsement, the Witan (the council of royal advisors) unanimously selected Harold as King. Harolds coronation took place the same day as Edward's burial. William also had a strong argument on taking the throne, he was promised by his cousin King Edward. The day that Harold was crowned King William viewed that event as defying King Edwards wishes and a sacred oath. When Harold defied this oath, William gained the support of the Pope who excommunicated Harold. The last person claiming the right to the throne was Harald Hardrada, King of Norway, he was promised the throne by Harthcut (ruler of England before Edward) saying that who ever dies first must give their land to the other. Hardrada however was busy fighting for the rule of Denmark so he couldnt claim England. William took control of England in 1066 and ruled until his death in 1087. Made in 1067, it was commissioned by the half-brother of William, Duke of Normandy, Bishop Odo. It was built to celebrate the victory William had over Harold Godwinson in the battle of Hastings on the 25th of September 1066. The tapestry is 70 meters long and 50 cm wide. In the first half of the tapestry William wanted to show how he was destined to take the throne of England. After that the tapestry showed how William ...

Reduction Definition and Examples in Chemistry

Reduction Definition and Examples in Chemistry Reduction involves a half-reaction in which a chemical species decreases its oxidation number, usually by gaining electrons. The other half of the reaction involves oxidation, in which electrons are lost. Together, reduction and oxidation form redox reactions (reduction-oxidation redox). Reduction may be considered the opposite process of oxidation. In some reactions, oxidation and reduction may be viewed in terms of oxygen transfer. Here, oxidation is the gain of oxygen, while reduction is the loss of oxygen. An old, less-common definition of oxidation and reduction examines the reaction in terms of protons or hydrogen. Here, oxidation is ​the loss of hydrogen, while reduction is the gain of hydrogen. The most accurate reduction definition involves electrons and oxidation number. Examples of Reduction The H ions, with an oxidation number of 1, are reduced to H2, with an oxidation number of 0, in the reaction: Zn(s) 2H(aq) → Zn2(aq) H2(g) Another simple example is the reaction between copper oxide and magnesium to yield copper and magnesium oxide: CuO Mg → Cu MgO Rusting of iron is a process that involves oxidation and reduction. Oxygen is reduced, while iron is oxidized. While its easy to identify which species are oxidized and reduced using the oxygen definition of oxidation and reduction, its harder to visualize electrons. One way to do this is to rewrite the reaction as an ionic equation. Copper(II) oxide and magnesium oxide are ionic compounds, while the metals are not: Cu2 Mg → Cu Mg2 The copper ion undergoes reduction by gaining electrons to form copper. The magnesium undergoes oxidation by losing electrons to form the 2 cation. Or, you can view it as magnesium reducing the copper(II) ions by donating electrons. Magnesium acts as a reducing agent. In the meantime, the copper(II) ions remove electrons from magnesium to form magnesium ions. The copper(II) ions are the oxidizing agent. Another example is the reaction that extracts iron from iron ore: Fe2O3 3CO → 2Fe 3 CO2 The iron oxide undergoes reduction (loses oxygen) to form iron while the carbon monoxide is oxidized (gains oxygen) to form carbon dioxide. In this context, iron(III) oxide is the oxidizing agent, which gives oxygen to another molecule. Carbon monoxide is the reducing agent, which removes oxygen from a chemical species. OIL RIG and LEO GER To Remember Oxidation and Reduction There are two acronyms that may help you keep oxidation and reduction straight. OIL RIG- This stands for Oxidation Is Loss and Reduction Is Gain. The species that is oxidized loses electrons, which are gained by the species that is reduced.LEO GER or Leo the lion says grr.- This stands for Loss of Electrons Oxidation while Gain of Electrons Reduction. Another way to remember which part of the reaction is oxidized and which is reduced is to simply recall reduction mean reduction in charge.