Compare and Contrast
Compare is a level that
emphasizes equality or positive levels.Contrast is
a level that emphasizes the difference. In this explanation you will be taken
to understand 2 types of Comparative Rankings, namely: Comparative and
Superlative.
ü Comparative: at the following comparison level, you must have at least 2 Subject.
Example:1. Snake is a wild animal.2. Tiger is a wild animal.· Snake is as wild as Tiger.
Example:1. Snake is a wild animal.2. Tiger is a wild animal.· Snake is as wild as Tiger.
Copper is a chemical element with symbol Cu (from Latin: cuprum) and atomic number 29. It is a soft, malleable, and ductile metal with very high thermal and electrical conductivity. A freshly exposed
surface of pure copper has a reddish-orange color. Copper is used as a
conductor of heat and electricity, as a building material, and as a constituent
of various metal alloys, such as sterling
silver used in jewelry, cupronickel used to make marine hardware and coins, and constantan used in strain gauges and thermocouples for temperature measurement.
Copper is one of the few
metals that occur in nature in directly usable metallic form as opposed to
needing extraction from an ore. This led to very early human use, from c. 8000
BC. It was the first metal to be smelted from its ore, c. 5000 BC, the first
metal to be cast into a shape in a mold, c. 4000 BC and the first metal to be
purposefully alloyed with another metal, tin, to create bronze,
c. 3500 BC.[4]
In the Roman era,
copper was principally mined on Cyprus,
the origin of the name of the metal, from aes
сyprium (metal of Cyprus),
later corrupted to сuprum,
from which the words copper (English), cuivre (French), Koper (Dutch) and Kupfer (German) are all derived.[5] The commonly encountered compounds are
copper(II) salts, which often impart blue or green colors to such minerals as azurite, malachite,
and turquoise,
and have been used widely and historically as pigments. Copper used in buildings,
usually for roofing, oxidizes to form a green verdigris (or patina).
Copper is sometimes used in decorative
art, both in its elemental metal form and in compounds as pigments.
Copper compounds are used as bacteriostatic agents, fungicides,
and wood preservatives.
Copper is essential to all
living organisms as a trace dietary
mineral because it is
a key constituent of the respiratory enzyme complex cytochrome c oxidase. In molluscs and crustaceans,
copper is a constituent of the blood pigment hemocyanin,
replaced by the iron-complexed hemoglobin in fish and other vertebrates.
In humans, copper is found mainly in the liver, muscle, and bone.[6] The adult body contains between 1.4
and 2.1 mg of copper per kilogram of body weight
2. Iron
Iron is a chemical
element with symbol Fe (from Latin: ferrum) and atomic number 26. It is a metal in the first transition series. It is by mass the
most common element on Earth, forming much of
Earth's outer and inner core.
It is the fourth most common element in the Earth's crust.
Its abundance in rocky planets like Earth is due to its abundant
production by fusion in high-mass stars, where it is the
last element to be produced with release of energy before the violent collapse
of a supernova,
which scatters the iron into space.
Like the other group 8
elements, ruthenium and osmium,
iron exists in a wide range of oxidation
states, −2 to +6, although +2 and +3 are the most common. Elemental
iron occurs in meteoroids and other low oxygen environments, but is reactive to
oxygen and water. Fresh iron surfaces
appear lustrous silvery-gray, but oxidize in normal air to give hydrated iron oxides,
commonly known as rust. Unlike the metals
that form passivating oxide layers, iron oxides occupy more
volume than the metal and thus flake off, exposing fresh surfaces for
corrosion.
Iron metal has been used since ancient times,
although copper alloys,
which have lower melting temperatures, were used even earlier in human history.
Pure iron is relatively soft, but is unobtainable by smelting because it is significantly hardened
and strengthened by impurities, in particular carbon,
from the smelting process. A certain proportion of carbon (between 0.002% and
2.1%) produces steel, which may be up to
1000 times harder than pure iron. Crude iron metal is produced in blast
furnaces, where ore is reduced by coke to pig iron,
which has a high carbon content. Further refinement with oxygen reduces the
carbon content to the correct proportion to make steel. Steels and iron alloys formed with other metals (alloy steels)
are by far the most common industrial metals because they have a great range of
desirable properties and iron-bearing rock is abundant.
Iron chemical compounds have many uses.
Iron oxide mixed with aluminium powder can be ignited to create a thermite
reaction, used in welding and purifying ores. Iron forms binary
compounds with the halogens and the chalcogens.
Among its organometallic compounds is ferrocene,
the first sandwich
compound discovered.
What The contrast physic iron and copper?
BalasHapusIron and copper metabolism have been intertwined for nearly 150 years and the interrelationship is growing with advances in understanding the role of ceruloplasmin as one example and the probable role of hephaestin as another. The transporter DMT1 (divalent metal transporter 1) clearly plays a major part in iron uptake and trafficking. Emerging evidence suggests that it plays a lesser role in manganese, cadmium and copper transport; but it is still being evaluated there. Yet another interaction may come from the IRE/IRP (Iron Responsive Element/Iron Regulatory Protein) story where a paradigmatic role in iron homeostasis is well established, but interaction with copper is only now emerging. Parallels include the nutrient status of both metals based on their utility for redox reactions as well as their toxicity primarily via reactive oxygen species. The workshop also revealed that alternate splicing of pre-mRNAs for iron and copper related proteins and tissue specific responses are additional similarities. Regulation of gene expression and excretion offered contrasts between the two metals. The workshop also considered a series of continuing and emerging issues.
HapusWhat is the benefit of copper in every life?
BalasHapus1.Heat delivery. Copper that has been mixed with other compounds can be a heat conductor. And this kind of Copper is easy to find in electrical stores. If you have ever studied electronics, you must have used this tool to deliver heat by melting.
Hapus2.Coinmakers. Money is the thing we always need. Coins have many values and types around the world. Copper becomes one of the materials in which the coin is formed. Jewelry makers and household items. Copper is also found in jewelry. Because it can also be mixed with gold or bronze. That's why Copper is important in making jewelry - jewelry and household tools. Look at many around us who merupakat household appliance shaped hard because of copper compound.
3.Being a dye. Copper compound with CuSO4 code which can be a blue dye. This compound is present in water. Killer of insects and pests. Senya Copper CuS04 mixed with Ca (OH) 2 compound produces a drug to kill insects or pests. This medicine is always needed by some people, especially the farmers to protect their own crops.
4.Clear the sulfur. Copper compounds with CuCI2 codes are useful for separating sulfur in oil. Oil extracted from the source is still mixed with other compounds and substances so it is necessary to do the separation process with one of them assisted by Copper compound. 5.Silk making. Silk fabrics do have a price that is not cheap.
6.Likewise its value. Thus many of the casino industries are trying to make artificial silk where the fabric is not 100% silk. Now the Copper compound mixed with NH4OH can help make the artificial silk solution.
Describe the chemical properties of copper and iron.
BalasHapusA. Some Chemical Properties of Copper
Hapus1) Copper is a relatively non-reactive element that is resistant to corrosion. In humid air the copper surface is covered by an attractive green layer of basic copper carbonate, Cu (OH) 2CO3.
2) Under exceptional conditions at temperatures of about 300 ° C. copper can react with oxygen to form a black CuO. While at higher temperatures, around 1000ºC, red copper (I) oxide (Cu2O) is formed.
3) Copper is not attacked by water or moisture and dilute nooksidator acids such as dilute HCl and dilute H2SO4. But concentrated hydrochloric acid and boil attack the copper metal and liberate hydrogen gas. This is due to the formation of complex ions CuCl2¯ (aq) which drives the equilibrium reaction to shift toward the product.
4) The dilute and concentrated nitric acid may attack copper, according to the reaction.
5) Copper does not react with alkali, but dissolves in ammonia by the presence of air to form a blue solution of the complex.
6) Hot copper can react with sulfur and halogen vapors. React with sulfur to form copper (I) sulphide and copper (II) sulphides and for reactions with halogens to form copper (I) chloride, especially chlorine which produces copper (II) chloride.
B. Some Chemical Properties of Iron
1. The element of iron is electropositive (easily releases electrons) so that the oxidation number is positive.
2. Fe can have biloks 2, 3, 4, and 6. This is because the electron energy difference in the 4s and 3d subshell is small enough, so the electrons in the 3d subshell are also released when ionization occurs other than electron on the 4s subshell.
3. Pure iron metals are highly reactive chemically and easily corroded, especially in humid air or when there is an increase in temperature.
4. Has allotroic ferrite form, ie alpha, beta, gamma and omega with transition temperature 700, 928, and 1530oC. The alpha form is magnetic, but when it turns into beta, its magnetic properties disappear though the geometric patterns of the molecules do not change.
5. Easy to react with nonmetallic elements such as halogen, sulfur, pospor, boron, carbon and silicon.
6. Soluble in dilute mineral acids. The oxidant is amphoteric.
BalasHapusWhy iron easy to rust?
Corrosion or coronation is very often we encounter on iron. Iron is a rusty metal. Regular iron, in contrast to stainless steel, is not covered by any surface so it is easy to react with oxygen and form a layer of Fe2O3 or hydroxide that continuously increases with time. This corrosion layer grew thicker and we know it as 'rust'.
HapusCorrosion or corrosion is the event of metal destruction due to the occurrence of chemical reactions with the environment that produce unwanted products. Rust on iron in the form of a reddish brown solid color that is fragile and porous.
The iron ions (II) formed on the anode are then oxidized into iron (III) ions which then form the hydrated oxide compound (iron rust), Fe2O3.xH2O.
Corrosion involves the presence of oxygen gas and water. Therefore, the iron stored in dry air will be more durable when compared to a humid place. Corrosion in iron is accelerated by several factors, such as acidity, contact with electrolytes, contact with impurities, contact with other less active metals (nickel, lead, copper), and the metal itself (density or coarseness of the surface).
what the function of Copper?
BalasHapusCopper functions in everyday life:
Hapus1) .The conducting heat. Copper that has been mixed with other compounds can be a heat conductor. And this kind of Copper is easy to find in electrical stores. If you have ever studied electronics, you must have used this tool to deliver heat by melting.
2) .Coffee maker. Money is the thing we always need. Coins have many values and types around the world. Copper becomes one of the materials in which the coin is formed.
3) .Materials of jewelry makers and household appliance. Copper is also found in jewelry. Because it can also be mixed with gold or bronze. That's why Copper is important in making jewelry - jewelry and household tools. Look at many around us who merupakat household appliance shaped hard because of copper compound.
4) .Being a dye. Copper compound with CuSO4 code which can be a blue dye. 5). This compound is present in water.
Killer of insects and pests. Senya Copper CuS04 mixed with Ca (OH) 2 compound produces drugs to kill insects or pests. This medicine is always needed by some people, especially the farmers to protect their own crops.
6). Squirting sulfur. Copper compounds with CuCI2 codes are useful for separating sulfur in oil. Oil extracted from the source is still mixed with other compounds and substances so it is necessary to do the separation process with one of them assisted by Copper compound.
7) .The making of silk. Silk fabrics do have a price that is not cheap. Likewise its value. Thus many of the casino industries are trying to make artificial silk where the fabric is not 100% silk. Now the Copper compound mixed with NH4OH can help make the artificial silk solution.
Please give example iron chemical compounds except iron oxide mixed with aluminium.
BalasHapusThe iron compounds produced in large scale industries are iron (II) sulfate (FeSO4.7H2O) and iron (III) chloride (FeCl3). Iron (II) sulfate is one of the most common sources of iron (II), but is less stable to air oxidation than the Mohr ((NH4) 2Fe (SO4) 2 · 6H2O) salt. The iron (II) compounds tend to oxidize to iron (III) compounds in the air
Hapus