Matching Items MCQs for Sub-Topics of Topic 15: Financial Mathematics

(i) Principal

(ii) Amount

(iii) Interest

(iv) Time

(a) The initial investment or loan amount.

(b) The total sum at the end of the period.

(c) The duration of the investment or loan.

(d) The cost of borrowing or return on investment.

(i) Annual Rate

(ii) Periodic Rate

(iii) 12% p.a. monthly compounding

(iv) 8% p.a. semi-annual compounding

(a) Rate applied for a period less than a year (e.g., monthly, quarterly).

(b) Rate quoted for a full year.

(c) Involves a periodic rate of 6% every six months.

(d) Involves a periodic rate of 1% every month.

(i) Investing Principal

(ii) Earning Interest

(iii) Money growing over time

(iv) Borrowing Money

(a) Accumulation

(b) Paying Interest

(c) Increasing the Amount

(d) Seeking Accumulation

(i) Annual Interest Rate

(ii) Monthly Periodic Rate

(iii) Quarterly Periodic Rate

(iv) Semi-annual Periodic Rate

(a) Quarter (3 months)

(b) Month

(c) Six months

(d) Year

(i) Principal + Interest

(ii) Original Sum

(iii) Extra Payment

(iv) Duration

(a) Time

(b) Amount

(c) Interest

(d) Principal

(i) Principal

(ii) Rate (annual)

(iii) Time (in years)

(iv) Simple Interest

(a) $I$

(b) $R$ (or $r$)

(c) $T$ (or $n$)

(d) $P$

(i) Simple Interest per annum

(ii) Simple Interest per half-year

(iii) Simple Interest per quarter

(iv) Simple Interest per month

(a) Month

(b) Half-year (6 months)

(c) Quarter (3 months)

(d) Year

(i) Find simple interest on $\textsf{₹}10,000$ at 8% for 3 years.

(ii) Find the amount if $\textsf{₹}5,000$ is invested at 6% for 2 years.

(iii) Find the rate if $\textsf{₹}4,000$ earns $\textsf{₹}400$ interest in 2 years.

(iv) Find the time if $\textsf{₹}8,000$ earns $\textsf{₹}1,200$ interest at 5%.

(a) Time

(b) Rate

(c) Simple Interest

(d) Amount

(i) Initial deposit

(ii) Extra money received

(iii) Total money at the end

(iv) Formula $P(1 + RT/100)$

(a) Amount

(b) Principal

(c) Interest

(d) Amount

(i) How much interest on a car loan?

(ii) Total to be repaid for a simple loan?

(iii) How long until money doubles?

(iv) What rate doubles money?

(a) Rate

(b) Amount

(c) Simple Interest

(d) Time

(i) $P$

(ii) $r$ (or $i$)

(iii) $n$

(iv) $A$

(a) Number of compounding periods

(b) Accumulated Amount

(c) Periodic Interest Rate

(d) Principal

(i) Annually

(ii) Semi-annually

(iii) Quarterly

(iv) Monthly

(a) $m=12$

(b) $m=1$

(c) $m=4$

(d) $m=2$

(i) Interest only on principal

(ii) Interest on principal + accumulated interest

(iii) Linear growth of amount

(iv) Exponential growth of amount

(a) Compound Interest

(b) Simple Interest

(c) Compound Interest

(d) Simple Interest

(i) Find the total at the end of 5 years.

(ii) Find the interest rate if money doubles in 7 years.

(iii) Find the initial amount needed to reach a future value.

(iv) Find how long it takes for money to triple.

(a) Principal ($P$)

(b) Number of periods ($n$)

(c) Amount ($A$)

(d) Rate ($r$)

(i) Initial deposit and final amount after 3 years.

(ii) Initial deposit and annual rate over 5 years.

(iii) Final amount and annual rate over 4 years.

(iv) Initial deposit, rate, and time.

(a) Calculate Future Value (Amount)

(b) Calculate Present Value (Principal)

(c) Calculate Rate

(d) Calculate Time

(i) Nominal Rate

(ii) Effective Rate

(iii) Periodic Rate

(iv) Compounding Frequency ($m$)

(a) The stated annual rate without considering within-year compounding.

(b) The actual annual rate earned or paid after accounting for compounding.

(c) The rate applied over the compounding period (e.g., monthly, quarterly).

(d) The number of times interest is compounded within a year.

(i) Annual

(ii) Semi-annual

(iii) Quarterly

(iv) Monthly

(a) $m=2$

(b) $m=1$

(c) $m=12$

(d) $m=4$

(i) Comparing a loan at 8% p.a. simple vs. 7.8% p.a. compounded quarterly.

(ii) Stated rate on a fixed deposit compounded monthly.

(iii) Actual yield on a deposit accounting for daily compounding.

(iv) Rate used for calculating interest every six months from an annual rate.

(a) Periodic Rate

(b) Effective Rate

(c) Nominal Rate

(d) Effective Rate

(i) Compounding is annual ($m=1$).

(ii) Compounding is more than once a year ($m>1$, $r_{nom}>0$).

(iii) Nominal rate is 0%.

(iv) Comparing actual annual return on investments.

(a) $r_{eff} = r_{nom}$

(b) $r_{eff} > r_{nom}$

(c) Use Effective Rate

(d) $r_{eff} = 0\%$

(i) Nominal Rate Definition

(ii) Effective Rate Calculation

(iii) Interest Rate Equivalency

(iv) Periodic Rate Definition

(a) To find the true annual cost/return.

(b) To standardise rates for comparison.

(c) To specify the rate for a sub-annual period.

(d) To state the rate without accounting for compounding frequency.

(i) Present Value (PV)

(ii) Future Value (FV)

(iii) Discounting

(iv) Compounding

(a) Finding the value of money at a future point in time.

(b) Finding the value of a future cash flow in today's terms.

(c) The process of finding the PV of future cash flows.

(d) The process of finding the FV of present cash flows.

(i) $FV = PV \times (1+r)^n$

(ii) $PV = FV / (1+r)^n$

(iii) PV of Multiple Cash Flows

(iv) FV of Multiple Payments

(a) Sum of PV of each individual cash flow.

(b) Future Value calculation.

(c) Present Value calculation.

(d) Annuity or series of uneven cash flows calculation.

(i) Net Present Value (NPV)

(ii) Internal Rate of Return (IRR) (often used alongside NPV)

(iii) Payback Period (often used alongside NPV/IRR)

(iv) Discount Rate

(a) Project acceptable if it's less than a target period.

(b) Used to discount future cash flows.

(c) Project acceptable if greater than 0.

(d) Project acceptable if greater than the required rate of return.

(i) How much will $\textsf{₹}1,000$ be worth in 10 years?

(ii) How much is $\textsf{₹}10,000$ received in 5 years worth today?

(iii) Evaluating a project's profitability considering the cost of capital.

(iv) Investing a lump sum for future growth.

(a) Present Value

(b) Future Value

(c) NPV

(d) Future Value

(i) Higher Interest Rate

(ii) Longer Time Period

(iii) Higher Discount Rate

(iv) Lower Discount Rate

(a) Higher Future Value

(b) Lower Present Value

(c) Higher Future Value

(d) Higher Present Value

(i) Ordinary Annuity

(ii) Annuity Due

(iii) Perpetuity (Ordinary)

(iv) Deferred Annuity

(a) Payments start after a certain period.

(b) Payments occur at the beginning of each period.

(c) Payments occur at the end of each period.

(d) Payments occur at the end of each period, forever.

(i) $Pmt \times \left[ \frac{(1+i)^n - 1}{i} \right]$

(ii) $Pmt \times \left[ \frac{1 - (1+i)^{-n}}{i} \right]$

(iii) PV of Ordinary Annuity $\times (1+i)$

(iv) FV of Ordinary Annuity $\times (1+i)$

(a) Future Value of an Ordinary Annuity

(b) Present Value of an Ordinary Annuity

(c) Present Value of an Annuity Due

(d) Future Value of an Annuity Due

(i) Saving a fixed amount monthly for a future goal.

(ii) Determining the lump sum received from future regular prize winnings.

(iii) Calculating fixed loan repayment amounts.

(iv) Evaluating the value of a rental agreement with payments upfront.

(a) Present Value of Ordinary Annuity

(b) Future Value of Ordinary Annuity

(c) Present Value of Annuity Due

(d) Finding Payment given PV (Annuity PV formula rearrangement)

(i) Ordinary Annuity

(ii) Annuity Due

(iii) Perpetuity

(iv) Finite Annuity

(a) Regular rent payments (from tenant perspective).

(b) Fixed term loan repayments (EMIs).

(c) Fixed pension payments received at the end of month.

(d) Perpetual bond interest payments.

(i) FV of Annuity Due vs. Ordinary Annuity

(ii) PV of Annuity Due vs. Ordinary Annuity

(iii) PV of Ordinary Annuity with $i>0$

(iv) FV of Ordinary Annuity with $i>0$

(a) The PV is less than the sum of all payments.

(b) The FV is greater than the sum of all payments.

(c) PV(Due) > PV(Ordinary)

(d) FV(Due) > FV(Ordinary)

(i) Perpetuity

(ii) Sinking Fund

(iii) Present Value of Perpetuity

(iv) Sinking Fund Contribution

(a) Regular deposits to accumulate a future sum.

(b) A series of equal payments that continue forever.

(c) The amount needed today to fund infinite future payments.

(d) The periodic payment required for a sinking fund.

(i) PV of Ordinary Perpetuity

(ii) Implied rate for a perpetuity ($i$)

(iii) Payment amount for a perpetuity ($Pmt$)

(iv) Relationship derived from PV of Annuity as $n \to \infty$

(a) $PV = Pmt / i$

(b) $Pmt = PV \times i$

(c) $i = Pmt / PV$

(d) Perpetuity formula

(i) Valuing preferred stock with constant dividend

(ii) Saving for future debt repayment

(iii) Calculating the price of a consol bond (perpetual bond)

(iv) Setting aside funds for asset replacement

(a) Sinking Fund

(b) Perpetuity

(c) Perpetuity

(d) Sinking Fund

(i) Increase in Payment Amount

(ii) Decrease in Interest Rate

(iii) Increase in Interest Rate

(iv) Decrease in Payment Amount

(a) Lower PV

(b) Higher PV

(c) Higher PV

(d) Lower PV

(i) Sinking Fund

(ii) Loan Amortization (EMI)

(iii) Perpetuity (Income Received)

(iv) Perpetuity (Cost to Fund)

(a) Outflow (initial lump sum)

(b) Inflow (periodic payments)

(c) Inflow (periodic deposits)

(d) Outflow (periodic payments)

(i) Principal

(ii) Loan Tenure

(iii) Interest

(iv) EMI

(a) The cost of borrowing money.

(b) A fixed periodic payment covering principal and interest.

(c) The initial amount borrowed.

(d) The duration over which the loan is repaid.

(i) Decreases over loan tenure

(ii) Increases over loan tenure

(iii) Constant throughout tenure

(iv) Sum equals total loan amount

(a) Principal Component (sum)

(b) Interest Component (per payment)

(c) Principal Component (per payment)

(d) Total EMI Payment

(i) Higher Interest Rate

(ii) Longer Loan Tenure

(iii) Lower Principal Amount

(iv) Shorter Loan Tenure

(a) Higher EMI

(b) Lower EMI

(c) Lower EMI

(d) Higher EMI

(i) EMI Calculation

(ii) Amortization Schedule

(iii) Total Interest Paid Calculation

(iv) Loan Amount Calculation (given EMI)

(a) To find the periodic repayment amount.

(b) To determine the total cost of borrowing.

(c) To find the principal loan amount affordable based on a fixed payment.

(d) To break down each payment into principal and interest.

(i) Annual Interest Rate (R)

(ii) Loan Tenure (N years)

(iii) Principal Loan Amount (P)

(iv) Compounding Frequency (monthly)

(a) $P$

(b) $R/12$

(c) 12 (for rate conversion)

(d) $N \times 12$

(i) Absolute Return

(ii) Percentage Return

(iii) Nominal Rate of Return

(iv) Real Rate of Return

(a) Return adjusted for inflation.

(b) Total gain or loss in monetary value.

(c) Return expressed as a percentage of the initial investment.

(d) Stated return before considering inflation or compounding details.

(i) Simple Average Return

(ii) CAGR

(iii) Percentage Return (single period)

(iv) Absolute Return

(a) Total gain or loss value.

(b) Geometric average annual growth rate.

(c) Useful for comparing investments with different durations.

(d) Arithmetic average of period returns.

(i) End Value

(ii) Start Value

(iii) $n$

(iv) $(End Value / Start Value)^{1/n}$

(a) The initial value of the investment.

(b) The number of years.

(c) The final value of the investment.

(d) The average annual growth factor.

(i) Investment grew from $\textsf{₹}1,00,000$ to $\textsf{₹}1,20,000$ in one year.

(ii) Comparing the growth of two companies over a 7-year period.

(iii) Portfolio value changed by $\textsf{₹}50,000$.

(iv) Comparing an FD rate with a recurring deposit return over multiple years.

(a) Absolute Return

(b) Percentage Return

(c) CAGR

(d) CAGR

(i) Investment value doubled in 5 years.

(ii) Investment value decreased over the period.

(iii) Investment value remained unchanged.

(iv) Investment value increased over the period.

(a) CAGR > 0

(b) CAGR < 0

(c) CAGR = 0

(d) CAGR $\approx 14.87\%$

(i) Depreciation

(ii) Useful Life

(iii) Salvage Value

(iv) Book Value

(a) Estimated remaining value at the end of use.

(b) Allocation of asset cost over its life.

(c) Cost minus accumulated depreciation.

(d) Estimated period an asset will be used.

(i) Numerator

(ii) Denominator

(iii) Cost - Salvage Value

(iv) Annual Depreciation

(a) Useful Life

(b) Depreciable Amount

(c) Depreciable Amount / Useful Life

(d) Depreciable Amount

(i) Annual Depreciation Expense

(ii) Accumulated Depreciation

(iii) Book Value

(iv) Original Cost of Asset

(a) Appears on the Balance Sheet as a reduction from asset cost.

(b) Appears on the Balance Sheet as the initial recorded value.

(c) Appears on the Income Statement.

(d) Appears on the Balance Sheet as the net value.

(i) Depreciation is constant each year.

(ii) Book value reaches salvage value at end of life.

(iii) Most common method for simplicity.

(iv) Depreciation calculation uses Cost, Salvage Value, and Useful Life.

(a) Straight-Line Method

(b) Straight-Line Method

(c) Straight-Line Method

(d) Straight-Line Method

(i) Beginning of Useful Life

(ii) End of Useful Life

(iii) During Useful Life

(iv) Asset Sold for less than Book Value

(a) Book Value equals Salvage Value.

(b) Book Value equals Original Cost.

(c) Loss on Sale.

(d) Accumulated Depreciation is increasing.

(i) Direct Tax

(ii) Indirect Tax

(iii) Progressive Tax

(iv) Taxable Income

(a) Tax rate increases with income.

(b) Tax burden is borne by the payer.

(c) Income subject to tax after deductions.

(d) Tax burden can be shifted to the consumer.

(i) Direct Tax

(ii) Indirect Tax

(iii) Tax on Income

(iv) Tax on Goods and Services

(a) Income Tax

(b) GST

(c) GST

(d) Income Tax

(i) Gross Total Income

(ii) Deductions

(iii) Tax Slabs

(iv) Tax Liability

(a) The total amount of tax payable.

(b) Allowable reductions from income to arrive at taxable income.

(c) Total income from all sources before deductions.

(d) Income ranges subject to different tax rates.

(i) GST on Sales (Output Tax)

(ii) GST on Purchases (Input Tax)

(iii) Input Tax Credit (ITC)

(iv) Net GST Payable

(a) Output Tax - ITC

(b) Tax paid on inputs, available for credit.

(c) Tax collected on outward supplies.

(d) Credit available against output tax liability.

(i) Income Tax Rate

(ii) GST Rate

(iii) Effective Tax Rate (Income Tax)

(iv) Average GST Rate on a product

(a) Taxable Income

(b) Total Tax / Gross Total Income

(c) Transaction Value (Price before GST)

(d) GST Amount / Price before GST

(i) Usage Charge

(ii) Fixed Charge

(iii) Tariff Rate

(iv) Surcharge

(a) Price per unit of consumption.

(b) Additional fee for specific reasons (e.g., late payment, fuel cost).

(c) Costs not directly related to consumption (e.g., meter maintenance).

(d) The quantity of utility consumed multiplied by the rate.

(i) Electricity

(ii) Water Supply

(iii) Piped Natural Gas (PNG)

(iv) Broadband Internet (data usage)

(a) Litres or Cubic Meters

(b) Gigabytes (GB)

(c) Kilowatt-hours (kWh)

(d) Standard Cubic Meters (SCM)

(i) Previous Reading - Present Reading

(ii) (Present Reading - Previous Reading)

(iii) Sum of charges for different consumption blocks

(iv) Energy Charge + Fixed Charge + Taxes

(a) Total Bill Amount

(b) Error (order incorrect)

(c) Usage / Consumption

(d) Total Energy Charge

(i) Billing Period

(ii) Due Date

(iii) Arrears

(iv) Total Amount Due

(a) Unpaid amount from previous bills.

(b) The date by which payment is required to avoid penalties.

(c) The duration covered by the bill.

(d) The final sum to be paid.

(i) Checking Meter Readings

(ii) Analysing Usage Pattern

(iii) Reviewing Tariff Rates

(iv) Identifying Extra Charges

(a) To understand how consumption influences cost per unit.

(b) To verify calculated consumption is correct.

(c) To identify potential unexpected fees or penalties.

(d) To find out when and how you use the utility most.