finance and growth grade 10
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Finance and Growth
By: Georgina Fourie
Student Number: 201223436
Module Code: PFS3A10
Date: 09 March 2014
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ContentInterest and Interest RatesThe difference between interest and interest rates.Terminology.Simple Interest.Compound Interest.
Foreign Exchange RatesCurrent exchange rates.Writing exchange rates as ratios.
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The Difference Between Interest and Interest Rates
Interest : This is seen as money in the context of finance and can be seen as two things
1. Interest earned – The reward that a bank or company will pay their clients for depositing or investing money with them.
2. Interest owed – The fee or charge that a person pays for borrowing money
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The Difference Between Interest and Interest Rates
Interest Rate – This is the rate at which a person is rewarded for money that has been invested or charged for money that has been borrowed.
Interest rate is usually expressed as
a percentage
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The Difference Between Interest and Interest Rates
Example:
Nomsa takes R18 000 student loan from the bank to pay for her studies. The bank is charging her 12%
interest per annum on the loan.
This rate of 12% is the INTEREST RATE.The amount Nomsa has to pay back to the bank
every month is the INTEREST.
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TerminologyHire purchase loan repayments are calculated
using simple interest formula on cash price, less deposit.
Monthly repayments are calculated by dividing the accumulated amount by the number of months for the repayment.
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Terminology Inflation is the average increase in the price of
goods each year and is given as a percentage.
Population growth is calculated using compound interest formula.
Foreign exchange rate is the price of one currency in terms of another.
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Simple Interest
Simple interest is interest that is calculated on the principal or original amount for the length of time for which it is borrowed. Simple interest is due at
the end of the term.
Another word for simple interest is
Hire Purchase
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Simple InterestFormula:
A = P(1+n×i)
A Final amount.P Initial/Principle amount.n Number of increases/decreases. i Rate of interest per increase/decrease.
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Simple Interest
Example:
Find the final amount if R860 is invested for 3 years at 5% simple interest?
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Simple Interest
Solution:
A=? , P=R860 , n=3 years , i=5%
A=P(1+n×i)
A= 860 (1+3×0.05)
A=R989,00c
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Simple InterestManipulating the formula to find i
Original formula : A = P(1+n×i)
Manipulated formula:
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Simple InterestFor Example:
An investment of R500 increases to R1243 after 2 years. Determine the rate at which simple interest
is being calculated on the investment.
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Simple Interest
A = R1243, i = ?, n = 2 years, P = R500
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Compound Interest
Compound interest is called ‘interest upon interest’ because it is interest that is being paid on the
original investment as well as on the interest that you have earned previously.
Another word for compound interest is Inflation.
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Compound InterestFormula:
A= P(1+i)ⁿ
A Final amount.P Initial/Principle amount.n Number of increases/decreases. i Rate of interest per increase/decrease.
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Compound Interest
Compound interest can be calculated:
Annually – Keep original numbers.Half-yearly – i = ÷2 ; n = ×2Quarterly – i = ÷4 ; n = ×4Monthly - i = ÷12 ; n = ×12Weekly - i = ÷52 ; n = ×52Daily – i = ÷365 ; n = ×365
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Compound InterestExample:
Jim receives R1000 on his birthday and decides to save it. He can get an interest rate of 4% at the
bank. Interest is compounded annually for 3 years. How much will Jims investment be worth after the 3
years?
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Compound InterestSolution:
A=? , P=R1000 , n=3 years , i=4%
A= P(1+i)ⁿ
A= 1000(1+ 0.04)³
A= R1124.86c
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Complex ExampleQuestion:
1. Michael invests R3500 in a savings account. The interest rate for the first 4 years is 8% p.a.
compounded monthly, thereafter the interest rate is changed to 9% p.a. compounded half-yearly for the next 5 years. Determine the amount of money that Michael had in his savings account at the end of
this period.
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Complex ExampleSolution:
Part A:
A=? , P=R3500 , n=4×12 , i=8%÷12
A= P(1+i)ⁿ
A= 3500(1+ 0.08÷12)
A= R4814.83c
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Complex ExampleSolution:
Part B:
A=? , P=R4814.83 , n=5×2 , i=9%÷2
A= P(1+i)ⁿ
A= 4814.83(1+ 0.09÷2)
A= R7477.29c
Therefore Michael had R7477.29c in his savings account
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Compound InterestManipulating the formula to get i
Original formula: A= P(1+i)ⁿ
Manipulated formula:
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Compound InterestFor Example:
Mpho invests R 30 000 into an account that and after investing for 4 years compound interest he had
R40 146,76c. What was his interest rate if it was compounded annually .
Use the formula:
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Compound InterestA = R40 146,76, P= R30 000, i = ?, n = 4
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Exchange Rates
Exchange rates refer to the cost of buying currencies from different countries.
A ‘currency’ is the type of money that a country uses to buy and sell goods and
services
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Current Exchange Rates
The table below shows the exchange rates of various currencies and what they buy and sell each
currency for at this present time.
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Writing Exchange Rates as Ratios
An exchange rate is a ratio that shows the price of one currency in terms of another currency
For example:
Write the following in its simplest ratio if the exchange rate of R6,9363 is equal to $1.00.
R6,9363: $1.00
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Writing Exchange Rates as Ratios
Another Example:
Write the following in its simplest ratio if the exchange rate of R6,9363 is equal to $1.00, how many dollars are you able to receive if you have R200.
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Reference ListSiyavula (2012). Finance Grade 10. Available
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Reference ListXehgo, V. (2014). Financial Mathematics Simple
and Compound Interest. Available From: http://www.slideshare.net/Vukile/201218457-financial-mathematics?qid=3b8ec53b-8b90-47db-9ef6-1f4b7ec96a87&v=default&b=&from_search=4 ( Accessed on 08th March 2014).
Mbhamali, T.(2014). Mathematics for grade 10-12. Available From: http://www.slideshare.net/Mbhamalitn/financial-mathematics-for-grade-10-11-and-12?qid=3b8ec53b-8b90-47db-9ef6-1f4b7ec96a87&v=default&b=&from_search=7 (Accessed on 08th March 2014).
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Reference ListNsimbini, N.(2013). Financial Mathematics Mixed
Problems. Available From: http://www.slideshare.net/Nelisiwepeace/financial-mathematics-mixed-problems?qid=3b8ec53b-8b90-47db-9ef6-1f4b7ec96a87&v=default&b=&from_search=5 (Accessed on 09th March 2014).
Kmwangi, (2009). Financial Mathematics. Available From: http://www.slideshare.net/kmwangi/pow-mathematician-on-wall-street?qid=23c08bed-890f-474f-8b2a-d8cfeef02498&v=qf1&b=&from_search=8 (Accessed on 09th March 2014).