Kaedah ulangkaji. The most important is -> Study smart...
http://afandiahmad1679.blogspot.com/2012/10/ulangkaji-tanpa-strategi.html
Al Hadid:4
Dia lah yang telah menciptakan langit dan bumi dalam enam masa, kemudian Ia bersemayam di atas Arasy; Ia mengetahui apa yang masuk ke bumi serta apa yang keluar daripadanya; dan apa yang diturunkan dari langit serta apa yang naik padanya. Dan Ia tetap bersama-sama kamu di mana sahaja kamu berada, dan Allah Maha Melihat akan apa yang kamu kerjakan.
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1.
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Sodium hydrogen
carbonate is prepared from NaCl and ammonium hydrogen carbonate, according to
equation:
NH4HCO3(aq) +
NaCl (aq) ® NaHCO3
(aq) +
NH4Cl (aq)
If
0.3 mol NH4HCO3 are reacted with 0.2567 mol of NaCl,
how many grams of NaHCO3 are obtained?
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2.
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CH4
(g) +
H2O (g) ® 3H2 (g) + CO
(g)
What mass of H2O
is required to react exactly with 249 g of methane?
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3.
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Suppose
25.0 kg of nitrogen gas and 5.00 kg of hydrogen gas are mixed and reacted to
form ammonia. Calculate the mass of ammonia produced when this reaction is
run to completion.
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4.
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Balance these two
equations below:
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a)
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Na +
H2O ® NaOH
+ H2
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b)
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NH4OH +
H2SO4 ® (NH4)2SO4 +
H2O
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5.
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When aluminium
metal is exposed to air, a protective layer of aluminium oxide (Al2O3)
forms on its surface. This layer prevents further reaction between aluminium
and oxygen, and it is the reason that aluminium beverage cans do not corrode.
[in the case of iron, the rust or the iron(III) oxide, that forms is too
porous to protect the iron metal underneath, so rusting continues]. Write a
balanced equation for the formation of Al2O3
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6.
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Balance the
equation representing the reaction between iron(III) oxide, Fe2O3,
and carbon monoxide (CO) to yield iron (Fe) and carbon dioxide (CO2)
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7.
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Balance the
following equations.
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a)
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NaOH +
H2SO4 ® Na2SO4 +
H2O
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b)
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N2O5 ® N2O4 ® O2
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8.
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Urea [(NH2)2CO]
is prepared by reacting ammonia with carbon dioxide:
2NH3
(g) + CO2 (g) ® (NH2)2CO
(aq) + H2O (l)
In
one process, 637.2 g of NH3 are treated with 1142 g of CO2.
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a)
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Which of the two
reactants is the limiting reagent?
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b)
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Calculate the
mass of (NH2)2CO formed.
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c)
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How much excess
reagent (in grams) is left at the end of the reaction?
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[A]
(mol/L)
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[B]
(mol/L)
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Initial
rate (mol/L/min)
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0.01
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0.01
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0.005
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0.02
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0.01
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0.010
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0.01
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0.02
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0.005
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Experiment
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[NO] (M)
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[H2]
(M)
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Initial rate
(M/s)
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1
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5.0 x 10-3
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2.0 x 10-3
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1.3 x 10-3
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2
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10.0 x 10-3
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2.0 x 10-3
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5.0 x 10-3
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3
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10.0 x 10-3
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4.0 x 10-3
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10.0 x 10-3
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8.
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The following
data were collected for the reaction A
+ B ® C + D
Determine the
rate order of reaction and calculate its rate constant. Following that, write
the rate law for the reaction.
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9.
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(a)
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Consider
the reaction A à B. The rate of the reaction is 1.6x10-2
Ms-1 when the concentration of A is 0.35 M. Calculate the
rate constant, k if the reaction is
(i)
First
order in A
(ii)
Second
order in A
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(b)
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(i)
Define
the half-life of a reaction.
(ii)
Write
the equation relating the half life of a first order of reaction to the rate
constant, k.
(iii)
Determine
the half life of a compound if 75 % of a given sample of the compound
decomposes in 60 min. Assume first order kinetics.
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(c)
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The rate constant
for a second order reaction 2NO2 (g) à 2NO (g)
+ O2 (g) is 0.54 M-1s-1
at 300 °C. How long (in second) would
it take for the concentration of NO2 to decrease from 0.562 M to
0.128 M.
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