SL Practice Paper 1 (2)
'Mock' Paper 1 multiple choice exam (2)
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Instructions
- Time allowed: 45 minutes
- Answer all the questions.
- For each question choose the answer you consider to be the best.
- Use the periodic table from Section 6 of the data booklet as your only source of reference.
- Do not use a calculator
- If you are not a native speaker of English a simple translating dictionary is allowed.
- At the end of 45 minutes tick the green check box at the bottom of the page.
- Learn from any mistakes you have made.
Which is a mixture?
Water, H2O and sucrose, C12H22O12 are both pure single substances. Steel is an alloy in which iron is bonded chemically to other elements such as carbon. Sand is a mixture as its different constituents are not bonded chemically to each other and retain their individual properties.
How many atoms of oxygen are present in 12.6 g of hydrated oxalic acid, (COOH)2.2H2O?
Avogadro's constant, L or NA = 6.02 x 1023 mol−1
M of (COOH)2.2H2O = (2 x 12) + (6 x 16) + (6 x 1) = 126 g mol−1, so the amount of (COOH)2.2H2O = 0.1 mol
Each (COOH)2.2H2O contains six oxygen atoms, so the number of O atoms = 6 x 0.1 x 6.02 x 1023 = 3.6 x 1023
What volume of carbon dioxide measured at STP will be evolved when 4.0 g of calcium carbonate is added to 20 cm3 of 2.0 mol dm−3 hydrochloric acid solution?
Molar volume of a gas at STP = 22.7 dm3 mol−1
CaCO3(s) + 2HCl(aq) → CO2(g) + H2O(l) + CaCl2(aq)
Amount of CaCO3 = 4/(40 + 12 + 48) = 0.04 mol; Amount of HCl = 20/1000 x 2.0 = 0.04 mol so HCl is the limiting reagent as 2 mol of HCl are required to react with 1 mol of CaCO3 to produce 1 mol of CO2.
Amount of CO2 produced = 0.02 mol, so volume of CO2 evolved = 0.02 x 22.7 = 0.454 dm3 = 454 cm3
A gas occupies 100 cm3 at a temperature of 36 oC and a pressure of 9.63 x 104 Pa. What volume (in cm3) will the same amount of gas occupy if the pressure is increased to 9.89 x 104 Pa and the temperature is increased to 63 oC?
Increasing the temperature increases the volume whereas increasing the pressure decreases the volume. The temperature must be measured in Kelvin so 36 oC and 63 oC is 309 K and 336 K respectively.
P1V1/T1 = P2V2/T2 so V2 = V1 x T2/T1 x P1/P2 = 100 x (336 ÷ 309) x (9.63 x 104 ÷ 9.89 x 104) = 100 x (336 ÷ 309) x (9.63 ÷ 9.89)
Which transition in the hydrogen emission spectrum will emit light in the visible region of the electromagnetic spectrum?
In an emission spectrum light is emitted when excited electrons fall to lower levels. When they fall to the n = 1 level the light emitted is in the ultraviolet region of the spectrum. When they fall from higher levels to the n = 2 level the light emitted is in the visible region of the spectrum.
What is the composition of the 37Cl+ ion?
Chlorine has an atomic number of 17, so contains 17 protons. This isotope has a mass number of 37 which is equal to the number of protons and neutrons, so it contains 20 neutrons. A neutral chlorine atom contains the same number of electrons as protons but the Cl+ ion has lost one electron, so it contains 16 electrons.
Which electron configuration is possessed by an element in group 13 and period 3 in the periodic table?
If it is in the third period the outer level of electrons must be occupying the 3s or 3s and 3p sub-levels and as it is in group 13 there must be three electrons in the outer level, so the correct electron configuration is 1s22s22p63s23p1 (which is the electron configuration of aluminium).
Which are the correct trends as group 17 in the periodic table is descended (F → I)?
Atomic radius increases as the outer electrons become further from the nucleus. ionization energy decreases as it requires less energy to remove the outermost electron and melting point increases as the intermolecular forces get stronger due to an increase in mass and number of electrons.
Europium, Eu is a lanthanoid and shows the same oxidation state in its sulfate and nitrate salts. The formula of europium sulfate is Eu2(SO4)3. What will be the formula of europium nitrate?
The oxidation state of Eu in Eu2(SO4)3 is +3 so Eu forms the Eu3+ ion. The formula for the nitrate ion is NO3− so the formula of Eu(III) nitrate is Eu(NO3)3.
Which contains at least one coordinate covalent bond?
In carbon monoxide the triple bond between the C and O atom is formed by the carbon atom sharing two electrons with two electrons from the O and the O donating a further pair of electrons. In the other three species all the bonds are normal covalent single or double bonds, even in the carbonate ion which forms a resonance hybrid.
Which compound has molecules with a bond angle less than 109o?
Water contains two non-bonding pairs of electrons which repel the electrons in the two bonding pairs making the bond angle less than 109o. BeCl2 and CO2 both have two electron domains making the molecules linear with bond angles of 180o and BCl3 has three electron domains so has a trigonal planar shape with bond angles of 120o.
Which describes the strongest type of intermolecular attractive forces between molecules in the compound?
Both propan-2-ol and propanoic acid have a hydrogen atom bonded directly to an electronegative oxygen atom so form hydrogen bonds between molecules whereas in propanal the hydrogen atom is bonded to a carbon atom and so only dipole-dipole attractions occur.
The boiling point of propanone is 56 oC. Which reaction has an enthalpy change equal to the enthalpy of formation of propanone?
Enthalpy of formation refers to the enthalpy change when one mole of the compound is formed from its elements with all the substances being in their standard state at 298 K (25 oC).
The superscript symbol, ⦵ placed after ΔH means that the enthalpy change for the reaction is the standard enthalpy change. Which statement must be true for the standard enthalpy change of any chemical reaction?
Temperature is not a part of the definition of standard state (although 298 K is commonly given as the temperature of interest).
ΔH⦵ reaction = Σ(ΔH⦵f products) − Σ(ΔH⦵f reactants) not Σ(ΔH⦵f reactants) − Σ(ΔH⦵f products).
Although ΔH⦵f and ΔH⦵c are normally given in kJ mol−1 as they refer to one particular substance, ΔH⦵reaction is normally given in kJ, not kJ mol−1 as, for example in the reaction N2(g) + 32(g) ⇌ 2NH3(g), it is not clear if the mol−1 is referring to N2(g), H2(g) or NH3(g).
What is the enthalpy change in kJ mol−1 for the combustion of propan-2-ol, CH3CH(OH)CH3?
2CH3CH(OH)CH3(l) + 9O2(g) → 6CO2(g) + 8H2O(l)
x = [(6 x −394) + (8 x − 286) − (2 x − 318)] kJ
But x is the enthalpy change for the combustion of 2 mol of propan-2-ol
so ΔH = ½ [(6 x −394) + (8 x − 286) − (2 x − 318)] kJ mol−1
The graph shows the fraction of reacting particles with a particular energy for an uncatalysed reaction at two temperatures, T1 and T2. The activation energy for the reaction is shown as Ea.
Which statement is correct?
Increasing the temperature increases the average energy of the reacting particles so T2 > T1 but does not change the number of reacting particles so the area under the graph remains constant. Adding a catalyst does not change the energy of the reacting particles but does provide a different pathway for the reaction with a lower activation energy.
100 cm3 of 2.0 mol dm−3 hydrochloric acid was added to 1.0 g of a strip of magnesium metal. A plot of volume of hydrogen evolved against time gave graph A.
Assuming all the other conditions were kept the same which changes would have given graphs B and C?
100 cm3 of 2.0 mol dm−3 HCl(aq) = 0.20 mol, 1.0 g of Mg = 1.0/24.3 = < 0.05 mol so the acid is in excess and Mg is the limiting reagent. If only 0.5 g of magnesium is used half the volume of hydrogen will be evolved so C and D cannot be correct. Using powdered Mg instead of a single piece of Mg will increase the rate whereas using 1.0 mol dm−3 HCl(aq) instead of 2.0 mol dm−3 HCl(aq) will decrease the rate but the same volume of H2 will eventually be evolved.
Which change will increase the value of the equilibrium constant for the reaction of sulfur dioxide with oxygen to produce sulfur trioxide?
2SO2(g) + O2(g) ⇌ 2SO3(g) ΔH⦵ = − 196 kJ
All of the changes will alter the position of equilibrium but the equilibrium constant is a constant at a particular temperature so only a change in temperature will change the value of Kc. As ΔH⦵ has a negative value the reaction is exothermic so lowering the temperature will increase the value of Kc.
What will be the pH of a solution made by adding 90 cm3 of water to 10 cm3 of an aqueous solution of a strong base with a pH of 12?
In the original solution with a pH of 12 [H+(aq)] = 1 x 10−12 mol dm−3 and [OH−(aq)] = 1 x 10−2 mol dm−3. Adding 90 cm3 of water dilutes the solution ten times so [OH−(aq)] = 1 x 10−3 mol dm−3 and [H+(aq)] = 1 x 10−11 mol dm−3 so pH = 11.
Hydrogen chloride gas dissolves in water to form hydrochloric acid.
HCl(g) + H2O(l) → H3O+(aq) + Cl−(aq)
What is the role of the water?
Water is amphiprotic so depending upon the reaction can act as an acid or a base by losing or gaining a proton. In this reaction it is not acting as an acid as it is not losing a proton to form OH− but is acting as a Brønsted-Lowry base by gaining a proton to form H3O+. Since the gas is dissolving and the ions formed are hydrated it is also acting as a solvent.
What is the oxidation state of nitrogen in HNO3?
Oxidation states should be represented with the sign given before the number, e.g. +5 not 5+. Roman numerals, e.g. (V) refer to oxidation numbers. When the plus sign is after the number it refers to the charge on a positive ion e.g. Fe2+.
The reactions of zinc metal with nickel ions and nickel metal with lead ions occur spontaneously.
Zn(s) + Ni2+(aq) → Zn2+(aq) + Ni(s)
Ni(s) + Pb2+(aq) → Ni2+(aq) + Pb(s)
Which is the best oxidizing agent?
Ni2+(aq) ions are a better oxidizing agent than Zn(s) as they remove electrons from Zn(s) to form Ni(s), but Pb2+(aq) is an even stronger oxidizing agent than Ni2+(aq) as it can remove electrons from Ni(s). Zn(s) is the best reducing agent.
Which is a tertiary alcohol?
Tertiary alcohols contains three R− groups bonded to the carbon atom to which the −OH is bonded. Compounds such as propan−1,2,3−triol (also known as glycerol), which contain three −OH groups, are known as trihydric alcohols.
Which compounds belong to the same homologous series?
A homologous series is a series of compounds of the same family, with the same general formula, which differ from each other by a common structural unit. Ethene, CH2CH2 and propene, CH2CHCH3 are both members of the alkene homologous series with the general formula CnH2n. Ethyne, CHCH is an alkyne whereas ethene, CH2CH2 is an alkene. Ethoxyethane, CH3CH2OCH2CH3 and butan-1-ol, CH3CH2CH2CH2OH are an ether and an alcohol respectively. They are isomers as they both have the same molecular formula, C4H10O but are members of different classes of compounds. Butanal, CH3CH2CH2CHO and butan-2-one, CH3CH2COCH3 are also isomers, one is an aldehyde and the other is a ketone.
Which is a propagation step in the mechanism for the free radical substitution reaction between methane and chlorine in ultraviolet light?
The initiation step is the homolytic fission of the Cl−Cl bond by ultraviolet light to give chlorine free radicals. These radicals then react to produce more radicals in propagation steps such as CH4 + Cl· → CH3· + HCl and CH3· + Cl2 → CH3Cl + Cl·. At no time are hydrogen, H· radicals formed. Termination steps such as CH3· + Cl· → CH3Cl result in a product that is not a free radical.
Which compound will rapidly decolourise an aqueous solution of bromine in the dark?
Bromine adds across the C=C double bond of alkenes such as but-2-ene and the organic product is colourless. Benzene does not readily undergo addition reactions. Butane is saturated so cannot undergo addition reactions and butanal is an aldehyde and has no C=C double bond.
A piece of magnesium of known mass was combusted in air in a crucible and the product was weighed afterwards to determine the empirical formula of magnesium oxide. Which could explain why the result obtained was Mg4O5 rather than the expected result of MgO?
If some of the product was lost, not all the magnesium burned or if some of the magnesium burned was already magnesium oxide then the mass of the weighed product would be less than expected, so the amount of oxygen combining with the magnesium would be less and the empirical formula would be richer in Mg compared to O. If the crucible reacted with some of the magnesium then the product might have a mass more than if it had just combined with oxygen so the formula would be richer in O compared to Mg.
The concentration of a reactant, A was measured as a reaction proceeded.
It was found that the expression
ln[A] = − kt + ln[Ao] (where [Ao] is the initial concentration of A, [A] is the concentration of A after time t and k is the rate constant) gave a straight line when a graph of the natural logarithm of the concentration of A, ln[A] was plotted against time, t.
Which is correct for the values of the intercept and the gradient?
Straight line graphs follow the general equation y = mx + c, where m is the gradient and c is the intercept.
What is the index of hydrogen deficiency of the amino acid phenylalanine, C9H11NO2?
When determining IHD O atoms count as zero and for a N atom add one to the number of C atoms and add one to the number of H atoms. This gives the equivalent of C10H12 which needs 10 more hydrogen atoms (5 units of H2) to become saturated as C10H22, hence the IHD is 5. This can also be seen from the phenyl group which has an IHD of 4 due to the 'three double bonds' and the ring plus the IHD of 1 for the C=O in the carboxyl functional group to give a total IHD of 5.
Which compound will give three signals in its 1H NMR spectrum with integration traces in the ratio of 3:3:2?
C2H5− is actually an ethyl group, CH3−CH2−, so pentan-2-one, C2H5−CH2−CO−CH3 will give 4 signals. The other three compounds will give three signals as the hydrogen atoms are in three different chemical environments. The ratio of the integration traces will be 3:2:1 for propanoic acid, CH3CH2COOH, 6:1:1 for propan-2-ol, CH3CH(OH)CH3 and 3:3:2 for butan-2-one, CH3COCH2CH3.