Principal: The money which we deposit in or the lower from the bank or the money learned called the principal. Show
Rate of interest: The interest paid on $ 100 for one year is called the rate per cent per year or rate per cent per annum. Time: The period of time for which the money is lent or invested. Interest: Additional money paid by the borrowed to the lender for using the money is called interest. Simple Interest: If the interest is calculated uniformly on the original principal throughout the lone period, it is called simple interest. Amount: The total money paid back to the lender is called the amount. Calculate Simple Interest Formula to calculate Simple Interest?If P denotes the principal ($), R denotes the rate (percentage p.a.) and T denotes time (years), then:- S.I = (P × R × T)/100
R = (S.I × 100)/(P × T) P = (S.I × 100)/(R × T) T = (S.I × 100)/(P × R) If the denotes the amount, then A = P + S.I
Note: ● When we calculated the time period between two dates, we do not could the day on which money is deposited but we count the day on which money is retuned. ● Time is always taken according to the per cent rat. ● For converting time in days into years, divide th number of days by 365 (for ordering or lap year.) ● For converting time in month into years, divide th number of month by 12 (for ordering or lap year.) Examples to find or calculate simple interest when principal, rate and time are knownCalculate Simple Interest Find the simple interest on: (a) $ 900 for 3 years 4 months at 5% per annum. Find the amount also. Solution: P = $ 900,R = 5% p.a. T = 3 years 4 months = 40/12 years = 10/3 years Therefore, S.I = (P × R × T)/100 = (900 × 5 × 10)/(100 × 3) = $ 150 Amount = P + S.I = $ 900 + $ 150 = $ 1050
Solution: P = $ 1000,R = 4% p.a. T = 6 months = 6/12 years S.I = (P × R × T)/100 = (1000 × 4 × 1)/(100 × 2) = $ 20 Therefore, A = P + I = $( 1000 + 20) = $ 1020
Solution: P = $ 5000, R = 151/2% p.a. T = 146 days S.I = ( 5000 × 31 × 146)/(100 × 2 × 365) = $ 10 × 31 = $ 310
Solution: P = $ 1200, R = 10% p.a. T = 9th April to 21st June= 73 days [April = 21, May = 31, Jun = 21, 73 days] = 73/365 years S.I = (1200 × 10 × 73)/(100 × 365) = $ 24 Examples to find or calculate Time when Principal, S.I and Rate are knownCalculate Simple Interest 1. In how much time dose $ 500 invested at the rate of 8% p.a. simple interest amounts to $ 580. Solution: Here P = $ 500, R = 8% p.a A = $ 580Therefore S.I = A - P = $ (580 - 500) = $ 80 Therefore T = (100 × S.I)/(P × R) = (100 × 80)/(500 × 3) = 2 years 2. In how many years will a sum of $ 400 yield an interest of $ 132 at 11% per annum? Solution: P = $ 400, R = 11% S.I = $ 132 T = (100 × S.I)/(P × R) = (132 × 100)/(400 × 11) = 3 yearsCalculate Simple Interest 3. In how many years will a sum double itself at 8 % per annum? Solution: Let Principal = P, then, Amount = 2PSo , S.I. = A - P = 2P – P = P T = (100 × S.I)/(P × R) = ( 100 × P)/(P × 8) = 25/2 = 121/2 years
4. In how many years will simple interest on certain sum of money at 6 1/4% Per annum be 5/8 of itself? Solution: Let P = $ x, then S.I = $ 5/8 x Rate = 6 1/4% = 25/4 % Therefore T = ( 100 × S.I)/(P × R) = ( 100 × 5/8)/(x × 25/4) x = ( 100 × 5 × x × 4)/(x × 8 × 25)T = 10 years Examples to find or calculate Rate per cent when Principal, S.I. and Time are known1. Find at what rate of interest per annum will $ 600 amount to $ 708 in 3 years. Solution: P= $ 600 , A = $ 708 Time = 3 years Therefore S.I. = $ 708 - $ 600 = $ Rs. 108 Now, R = ( 100 × S.I)/(P × R) = (100 × 108)/(600 × 3) = 6% p.a.Calculate Simple Interest 2. Simple interest on a certain sum is 36/25 of the sum. Find the Rate per cent and time if they are both numerically equal. Solution: Let the Principal be $ X Then S.I. = 36/25 x R = ? T = ? Let Rate = R % per annum, then Time = R years. So S.I. = (P × R × T)/100 → 36/25 x = (x × R × T)/100 --- ( 36 × 10 × x)/(25 × x) = R2 ----- R2 = 36 × 4 ----- R = √(36 × 4) = 6 × 2 Therefore Rate = 12 % p.a. and T = 12 years
3. At what rate per cent per annum will $ 6000 produce $ 300 as S.I. in 1 years? Solution: P= $ 600, T = 1 year S.I. = $ 300 Therefore R = ( S.I × 100)/(P × R) = ( 300 × 100)/(6000 × 1) = 5% p.a4. At what rate per cent per annum will a sum triple itself in 12 years ? Solution: Let the sum be $ P, then Amount = $ 3P S.I. = $ 3P – P = $ 2P, Time = 12 years Now, R =( S.I × 100)/(P × R) = (100 × 2P)/(P × 12) = 50/3 = 16.6 %Examples to find or calculate Principal when Rate, Time and S.I. are knownCalculate Simple Interest 1. What sum will yield $ 144 as S.I. in 21/2 years at 16% per annum? Solution: Let P = $ x, S.I. = $ 144 Time = 21/2 years or 5/2 years, Rate = 16% So, P = ( 100 × S.I)/(P × R) = ( 100 × 144)/(16 × 5/2) = ( 100 × 144 × 2)/(16 × 5) = $ 3602. A some amount to $ 2040 in 21/2 years at , P = ? Solution: Let the principal = $ x S.I. = $ (x × 11 × 5/2 × 1/100) = $ 11x/40 Amount = P + S.I. = x/1 + 11x/40 = (40x × 11x)/40 = 51x/40 But 51x/40 = 204051x = 2040 × 40 ---- x = (2040 × 40)/51 = $ 1600
3. A certain sum amounts to $ 6500in 2 years and to $ 8750 in 5 years at S.I. Find the sum and rate per cent per annum. Solution: S.I. for 3 years = Amount after 5 years – Amount after 2 years = $ 8750 – $ 6500 = 2250 S.I. for 1 years = Rs. 2250/3 = $ 750 Therefore S.I. for 2 years = $ 500× 2 = $ 1500 So, sum = Amount after 2 years – S.I.for 2 years = $ 6500- 1500 = $ 5000 Now, P = Rs.5000, S.I. = $ 1500, Time = 3 years R = ( 100 × S.I)/(P × T) = (100 × 1500)/(5000 × 2) = 15% Therefore The sum is $ 5000 and the rate of interest is 15%
Solution: Let the first part be $ x. Second part = $ (6500 - x ) Now S.I. on $ X at 9% per annum for 1 year = $ (x × 9 × 1)/100 = 9x/100 S.I. on $ (6500 – x ) at 10% per annum 1 year = $ ((6500-x) × 10 × 1)/100 = $ ((6500 - x))/10 Total S.I = $ (9x/100+ (6500 - x)/10) = ((9x + 6500 - 10x)/100) = $ ( 65000 - x)/100But given that total S.I.= $ 605 So, (6500 - x)/100 =605 -----65000 - x = 60500 ----- 65000 – 60500 = x ---- x = $ 4500 Now, second part = 6500 – x = 6500 – 4500 = $ 2000 Hence, first part = $ 2000 and second part = $ 4500
Solution: Let the original deposits be $ xThen, S.I. on $ x for 1 year at (10 - 9 )% = 1% per annum + S.I. on $ 500 For I year at 10% per annum = $ 15 ----- ( x × 1 × 1)/100 + ( 500 × 10 × 1)/100 = 150 ----- x/(100 ) + 50 = 150 ---- x/(100 ) + 150 – 50 ----- x/(100 ) + 100 ----- x = 100 × 100 = $ 10,000 Therefore, the original deposit is $ 10,000. Calculate Simple Interest ● Simple Interest What is Simple Interest? Calculate Simple Interest Practice Test on Simple Interest ● Simple Interest - Worksheets Simple Interest Worksheet 7th Grade Math Problems 8th Grade Math Practice From Calculate Simple Interest to HOME PAGE
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Our simple interest calculator calculates monthly payments on an interest-only loan. Just provide the interest percentage and you'll know how much that loan costs. The difference between "just" interest and mortgage payment is simple - with the mortgage calculator, every month you repay a part of the principal and your loan balance gets lower and lower. With the simple interest calculator, only the interest is paid. The loan amount stays the same forever. Nothing changes with time, so we didn't include a field that would specify your loan's duration. Simple interest can be used both when you borrow or lend money. In the former case, the interest is added to a separate pile of money each month (and is not subject to extra interest next month). If you would like to compute the rate of interest, you can easily utilize our Interest Rate Calculator for both loans and deposits.
The interest is one of the most often used word in finance. Students of the economy become familiar with this term during their very first lectures. Financial advisors, financial officers, stockbrokers, bankers, investment managers, and other financial experts use this term hundreds of times during their everyday activities. So, at the beginning of this article, we will try to answer the question “What is interest?”. Later on, you will find the answers for the following questions:
In the next sections, we will also show you some examples of simple interest calculations. But everything in its own time. Let's start with the definition of interest. Generally, interest is the cost of borrowing money. It is a price that the borrower pays to the lender for using his money. The interest is customarily expressed as a percentage (%) of the original amount (principal amount, balance). Interest can be either simple or compounded. Simple interest is based on the original amount, while compound interest is based on the original amount and the interest that accumulates on it in every period (for further explanations of simple and compound interest see the section ).
In finance, interest rate is defined as the amount that is charged by a lender to a borrower for the use of assets. Thus, we can say that for the borrower, the interest rate is the cost of debt, and for the lender, it is the rate of return. Note here that in case you make a deposit in a bank (e.g., put money in your saving account), from a financial perspective it means that you lend money to the bank. In such a case the interest rate reflects your profit. The interest rate is commonly expressed as a percentage of the principal amount (loan outstanding or value of deposit). Usually, it is presented on an annual basis. In that case, it is called the annual percentage yield (APY) or the effective annual rate (EAR).
Simple interest is used to estimate the interest earned or paid on a certain balance (original amount) during a particular period. Simple interest does not take into account the effects of compounding. Compounding means calculating interest on interest. In other words, with compounding you earn the interest not only on the principal amount but also on the interest that was earned over the previous periods. It is essential information, as it means that simple interest may undervalue the amount of interest earned or paid over the considered period. If you want to assume that interest from the previous periods influence the original amount, you should apply compound interest. You will find detailed information about compound interest in our compound interest calculator. Here, we only mention its most basic definition which states that compound interest is the interest calculated on the initial principal and the interest which has been accumulated during the consecutive periods as well. Note that since simple interest is calculated only on the original amount, it's much easier to determine than compound interest. However, with our calculators, you won't feel the difference.
According to the widely accepted definition, simple interest is an interest that is paid or computed on the original amount of a loan or the amount of a deposit. The simple interest formula is: interest = amount * interest_rate Did you know that the term simple interest was used for the first time in 1798? (That year, the words rentier and working capital appeared in the English language for the first time, too).
Are you wondering how to calculate simple interest? Here is an example that should help you understand it.
Now let's try to make some further calculations. If you want to compute the sum of the interest paid over a specified period, all you need to do is to multiply the monthly interest by the adequate number of months or years. For example, you may want to calculate the total interest you will receive during next two and a half years. To do so, you need to multiply $4.17 by 30 (2 years = 24 months, half a year = 6 months). $4.17 * 30 = $120.83. Obviously, all of the above calculations might be done quickly and painlessly with our smart calculator. When testing this tool, don't forget to try the advanced mode.
You inherit $1,000,000 and intend to use it to provide a steady income - you don't want to spend it, nor invest it. You put it into a bank account with a 5% annual interest rate. Every year, you get $50,000 (5% of $1 million). Every month, you'll receive $4,166.67 (1/12 of $50,000). No matter how much time passes, you'll still have $1 million on that account.
But what if you were to leave that extra cash on the account? Then that interest would keep working for you and every month the balance on the account would increase (and the whole thing would become an investment. To make it simple, let's assume that the interest compounds annually (is added once per year).
Now that's something, isn't it? You wouldn't get your $4,166 every month, but you'd have 131 times more in the bank after 100 years.
Well, not everyone will inherit $1,000,000 (although we sincerely wish you that). However, it doesn't mean that you will not come across simple interest in your everyday life. The common examples of use of simple interest are
$5,000 * 3% = $150 In total, you will have to pay back the principal amount plus the interest. So: $5,000 + $150 = $5,150
$1,700 * 15% / 12 = $21.25 However, be aware that credit cards usually have compounded interest rate. Simple interest on credit cards is nowadays rather something extraordinary (Well, try to guess why…)
$30,000 * 0,2% = $60 So the buyer will have to pay: $30,000 - $60 = $29,940 Can you calculate the annualized interest rate of this discount? Try to do it by your own and check the result in our easy to use APY calculator.
To explain what is perpetuity, we have to start with the term annuity. In the most intuitive sense, an annuity is a series of payments which are made during a specified period at equal intervals. A perpetuity is a specific type of an annuity that has no end. In other words, we could say that perpetuity is a stream of payments that continues forever (indefinitely). Assuming that payments begin at the end of the first period, the monthly payment from perpetuity is calculated with the following formula: monthly payment = principal amount * interest_rate Note, that it is not a coincidence that the above formula is very similar to the simple interest formula presented in the section (interest = amount * interest_rate). In fact, we calculate the same value, only the names of the variables have changed. Are you curious what is the value of the principal amount that guarantees you don't have to work anymore? Let's assume that to do so, you need a yearly income equal to $100,000. We also need to assume that, the interest rate is 4% and is constant over time. Thus: $100,000 = principal amount * 4% So: principal amount = $100,000 / 4% = $2,500,000 Hmm… quite a lot, isn't it? Unfortunately, even if you had such an amount, currently there are only a few existing financial products that are based on the concept of perpetuities. However, in the past, they were issued by many financial institutions (insurers and bank) and even the governments. For example, the so-called consols were issued by the British government and were finally redeemed in 2015.
Now you know what is simple interest and how to calculate its value. So it's the high time you become familiar with more complex concepts of financial mathematics. Undoubtedly, the term which is the most associated with simple interest is compound interest. We have already described this idea in one of the previous sections. But, did you know that calculations based on compound interest may be used to compute the future value of your investment or savings? All you need to do is use one of our smart calculators. At the beginning, we suggest to try the future value calculator, investment calculator, and savings calculator. You may also be curious how to compare several bank deposit (or loan) offers if they have different compounding periods and different interest rates. To do so, you need to compute the Annual Percentage Yield, which is also known as the Effective Annual Rate (EAR). This value tells you what is the interest rate on a yearly basis and thus helps you make the best (i.e., the most reasonable) financial decision. We believe that the most comfortable way to do so is by using our APY calculator. However, you can also do it on your own. If you are not sure how to do this, read the APY calculator description where everything is explained in detail. Another fascinating thing you can do when going deeper in interest calculations is to compute how long it would take to increase your investment by n%. Are you curious how much time you need to double your initial investment? Triple it? We suggest you use our smart rule of 72 calculator.
If you want to apply the concept of interest rate to everyday life situations, you can try the following tools designed by the Omni team:
The concept of interest rate is also widely applied to various business calculations. Here you have a few examples of our business calculators in which the interest rate plays an important role.
The difference between simple and compound interest is that simple interest is paid on the initial principal (loan or deposit), while compound interest is calculated using the initial loan or deposit and any earned interest on top of that.
To find the future value, F, of simple interest, follow these steps:
The principal, or principal amount, is the initial amount of money lent or invested. The letter P denotes the principal, and it's the value on which interest is calculated.
6% interest on a $30,000 loan is $1,800 per year or $150 per month. You can quickly calculate simple interest by finding the 6% of 30000: 6 × 30000 / 100 = 1800 |
What will be the simple interest on a principle of Rs 3500 at the rate of 4% per annum for a period of 8 years?
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