metals

Question 1

characteristics of metals (6)

Answer 1

• mallaeble
• good conductors of electricity + heat
• high mp bp
• ductile (beaten into sheets)
• pure metals are too soft (not widely used in industry, may react w water and corrode easily)

Question 2

who react with cold water to form…?

Answer 2

• K, Ca, Na (3)

- metal hydroxide (aq) + H2

Question 3

why are metals often used in the form of alloys? (4)

Answer 3

1. to make metals Harder and Stronger
2. to Improve appearance of metals(shiny)
3. To lower Melting point of metals (bcos impurities lower mp)
4. to make metals more Resistant to corrosion
   hisrm

Question 4

why are alloys stronger and harder than their constituent metals?

Answer 4

bcos atom of added elements hv a diff since thus disrupting the regular/orderly arrangement so layers of atoms cannot slide over each other easily when a force is applied

Question 5

what is an alloy

Answer 5

it is a mixture of a metal with one or a few other elements(need not b metal)

Question 6

steel

Answer 6

alloy of iron and carbon

Question 7

brass

Answer 7

alloy of copper(70%) and zinc(30%), it is harder and stronger than pure zinc + does not corrode easily, attractive yellow colour(goldish) so used for decorative ornaments, musical instruments and coins

Question 8

bronze

Answer 8

alloy of copper and tin

Question 9

pewter

Answer 9

alloy of tin(95%), antimony(3.5%) and copper(1.5%), used as a decorative ornament because of its bright, shiny silverish colour

Question 10

solder

Answer 10

alloy of tin(50%) and lead(50%), has a lower mp than pure tin or lead and is used for joining metals

Question 11

cupronickel

Answer 11

alloy of copper and nickel, used in coins as it does not corrode easily

Question 12

stainless steel

Answer 12

alloy of iron, chromimum, nickel and carbon, resitant to corrosion and used for cutlery, utensils, medical instruments and pipes in chemical industries

Question 13

who react with steam to form…?

Answer 13

• Mg, Al, Zn, Fe (4)
• metal oxide (s) + H2
  Fe will form Fe3O4 (is the red colour cpd in ur bld)
  ZnO (s) is yellow when hot, white when cold

Question 14

who will have no rxn w steam or cold water

Answer 14

lead, copper, silver

Question 15

who will have explosive rxn w dilute acids, what will they form

Answer 15

• K and Na (2)
• form metal chloride + H2 (if reacted w HCL)
  metal salts + h2

Question 16

who will have violent rxn w dilute acids, what will they form

Answer 16

Calcium (Ca)

- form metal salts + H2

Question 17

who will have moderately fast rxn w dilute acids, what will they form

Answer 17

• Mg. Al, Zn (3)

- form salt + H2 (g)

Question 18

who will have slow rxn w dilute acids

Answer 18

• iron, lead

Question 19

who will have no rxn w dilute acids

Answer 19

• copper, silver

Question 20

the 2 states of metals, combined and uncombined states, explain

Answer 20

uncombined:
- Gold, Silver, Platinum (unreactive metals)
- copper is also unreactive but not uncombined

combined:

• metal oxides
• metal sulfides
• metal carbonates
• metal chlorides

Question 21

reactions based on reactivity series:

Answer 21

1. metal displacement reaction(btwn solid metal & metal solution)
2. metal displacement reaction(btwn a metal & a metal oxide)
3. reduction of metal oxides with carbon
4. reduction of metal oxides with hydrogen
5. thermal decomp of metal carbonates

Question 22

metal displacement reaction(btwn solid metal & metal solution)

Answer 22

a more reactive metal can displace ions of less reactive metals from its salt solution

Question 23

metal displacement reaction(btwn a metal & a metal oxide)

Answer 23

a more reactive metal can reduce the oxide of a less reactive metal
- need a fuse(like a magnesium ribbon) to provide enough energy to start the rctn when it ignites

Question 24

reduction of metal oxides with carbon

Answer 24

• carbon can remove oxygen frm the oxides of metals that r not too high up the reactivity series(oxides of zinc onwards, zinc, iron, lead and copper)
• the lower the position of a metal in the reactivity series, the easier it is for carbon to reduce its oxide
  carbon can reduce any metal below it, better RA than hydrogen!

Question 25

reduction of metal oxides with hydrogen

Answer 25

• hydrogen can remove oxygen from metallic oxides producing the metal and water
• lower the position of a metal in the rs, easier for hydrogen to reduce its metal oxide
• oxides of lead and copper can b reduced to their metals by heating w hydrogen
• must hv an outlet for H2 gas bcos it is very explosive s so an outlet is needed for it to flow out
• heat source is to b removed b4 h2 source so that metal cools down and will not react with air to form back the oxide

Question 26

thermal decomp of metal carbonates

Answer 26

the more reactive the metal, the more difficult it is to decompose its carbonate by heat
- not all can b decomposed, grp 1 metal carbonates–> highly thermally stable, thus thy do not decompose on prolonged heating
so K2co3 and Na2co3–> unaffected by heat
rest of them from Ca onwards decompose into metal oxide + co2 on heating except for Ag2Co3–> decompose into silver and co2 on heating

Question 27

whats reactivity

Answer 27

tendency of a metal to lose an electron

• ⬆ reactive, ⬆ reducing power
• grp 1 metals ⬆ reactive than grp 2

Question 28

cost of metals dependent on… (2)

Answer 28

• abundance of metal

- method of extraction of metal

Question 29

step 1 of blast furnace

Answer 29

• coke react w oxygen to form carbon dioxide and heat
  C (s) + O2(g) –> CO2 (g)
• Co2 cant be RA cos max no of OS is + 4, cnt go beyond

Question 30

step 2 of blast furnace

Answer 30

• Carbon dioxide react w more coke to form carbon mono, which is a good RA
  CO2 (g) + C (s) –> 2CO (g)

Question 31

step 3 of blast furnace

Answer 31

• carbon mono reacts with haematite to prod molten iron
  3CO(g) + Fe2O3 (s) –> 2Fe (l) + 3CO2 (g)
• molten iron sinks to bottom of furnac as cast iron
• CO2 escapes as hot gas thru top of furnac

Question 32

step 4 of blast furnace

Answer 32

• limestone thermally decomp to prod calcium oxide * carbon dioxide
  CaCO3 (s) –> CaO (s) + CO2 (g)
• the CO2 can be recycled again for stage 2

Question 33

step 5 of blast furnace

Answer 33

acidic impurities like Silicon dioxide react w basic CaO to prod slag (neutralisation rxn, the only non redox ones are stage 4 & 5)

SiO2 (s) + CaO(s) –> CaSiO3 (l)

• molten slag sinks but its less dense than molten iron so it floats on top

Question 34

the 3 ‘ingredients’ on top of the blast furnace (3)

and other things added (hINt: the air)

Answer 34

• limestone (CaCO3)
• coke (c)
• haematite (Fe2O3)
  haematite is most impt ore of iron composed of mainly iron (iii) oxide and sand impurities (SiO2 –> acidic oxides, GMS)
• hot air enriched w O2, > 750 degree celcius

Question 35

blast furnaces surfaces are lined with …? (3)

Answer 35

… ionic cpd which are insoluble + high mp + trap heat

Question 36

waste gases exiting blast furnace

Answer 36

• N2, CO2

- NO, NO2 (react w high temp, enuf to break N triple N bond, form oxides of nitrogen)

Question 37

what is steel

Answer 37

• is an alloy of iron & carbon w small amts of other elements
• rusts easily
• very strong
• cheap compared to othr alloys
• most widely used metal alloy
• strong, tougher and harder than pure iron

Question 38

how to make steel?

Answer 38

1. remove all impurities in iron–> done by blowing oxygen gas into molten iron to change impurities into oxides (non-metallic oxides)
2. the oxides(acidic) are combines w quicklime(basic, CaO) and removed as slag
3. the correct amts of carbon and other metals are added to make steel

Question 39

mild steel (low-carbon steel) aka wrought iron
(composition, special properties, reason and uses)

Answer 39

composition: 99.5% iron, 0.25% carbon
special properties: hard, strong and malleable
reason: diff sizes of carbon atoms disrupt the regular layer of iron atoms, hence conferring strength
uses: carbodies, machinery

Question 40

hard steel (high-carbon steel) aka cast iron
(composition, special properties, reason and uses)

Answer 40

composition: 0.45%-1.5% carbon
special properties: strong but brittle, not very malleable, harder than mild steel
reason: too much disruption to the layers of atoms, when a force is applied metal fractures
uses: knives, hammers, chisels, saws and other cutting tools

Question 41

manganese steel

composition, special properties, and uses

Answer 41

composition: iron, carbon and manganese
special properties: increased strength and hardness
uses: springs and drills

Question 42

stainless steel

composition, special properties, and uses

Answer 42

composition: iron, carbon, chromium & nickel
special properties: durable, highly resistant to corrosion
uses: cutlery, surgical instruments & equipment in chemical plants

Question 43

whats rusting lol

Answer 43

• only used on iron and steel okay, others say corrode cos it issz wat it iss
• need oxygen and water
• gradual oxidation of iron to form hydrated iron (iii) oxide [Fe (s) + 3O2 (g) + 2xH2O (l) ]
• sped up thru NaCl and acidic subs (so houses near sea rust alot cos got NaCl in sea)

Question 44

rust prevention methods (2)

Answer 44

1) protective layer
- once scratched iron/ steel beneath will rust faster
- exclude water and oxygen
- painting, greasing, plastic coating, electroplating with less reactive metals (canned food in tin plated irol/ steel cans)
2) sacrificial method
a) galvanising (oni Zn)
- coating w zinc (not protective layer ok)
- Zn more reactive than iron, pref oxidise in place of iron
b) attach steel/iron to a more reactive metal
- expensive tho (used on bigger construction)
- more reactive one oxidise pref/ more readily in place of iron

Question 45

why must we recycle metals?

Answer 45

bcos metals are finite and non-renewable resources

thus recycling makes the supply of metals last longer

Question 46

how can we conserve metals?

Answer 46

by finding substitutes to replace metals so that we can use the existing metals more sparingly
or
recycling!

Question 47

price of metal depends on: (2)

Answer 47

1. how scarce/ availabiltiy of these metals
   - -> that why aluminum is cheaper than gold
2. methods of extraction
   - -> electrolysis is more ex than reduction w carbon

Question 48

advantages of recylcing metals (4)

Answer 48

1. helps to conserve the finitie natural resources
2. helps to reduce shortage of landfills required for disposal for unwanted items
3. helps to reduce emissions of pollutants caused by extraction of metals such as reduce the emission of sulfur dioxide and co2:
   - in iron blast furnace–> co2 & co
   - burning of fossil fuels to provide heat for electrolysis
4. saves cost of extracting metals as less electrical energy/fossil fuels r used

Question 49

economic issues of recycling metals

Answer 49

can be more expensive than extracting metals directly from ores bcos costs include collecting, sorting, separating, cleaning and transporting

Question 50

environmental issues of recycling metals

Answer 50

can cause pollution problems such as recylcing car batteries–> release harmful gases into the envo bcos to recycle metals u hv to melt them first, burn fossil fuels