recherche

mercredi 20 novembre 2013

How to calculate the Rate of Inflation

Rate of Inflation Formula
The rate of inflation formula measures the percentage change in purchasing power of a particular currency. As the cost of prices increase, the purchasing power of the currency decreases.
The rate of inflation formula shown uses the Consumer Price Index which is released by the Bureau of Labor Statistics in the US. However, other similar indices may be used at times. If another index is used, "CPI" in the rate of inflation formula is replaced by the alternate index.
The subscript "x" refers to the initial consumer price index for the period being calculated, or time x. And such, subscript "x+1" would be the ending consumer price index for the period calculated, or time x+1.

Use of Rate of Inflation Formula

The formula for the rate of inflation is primarily used by economists. On the financial side, the rate of inflation may be used by corporations to compare expenses, revenues, and profit across multiple years.
The rate of inflation formula shown is not to be confused with the purchasing power of goods relative to income.
An example, albeit an extreme example, would be an individual who recently discovers that their income will increase to $1,000,000 from $20,000 per year--a 5,000% increase. The individual, unable to hold back excitement, decides to go shopping only to discover that a loaf of bread suddenly increased to $300 from $3--a 10,000% increase. The same result occurs as the individual purchases more products. Soon the individual realizes that they are worse off than prior to the income change. The rate of inflation formula measures only inflation, the 10,000% price increase in the example, and does not consider income, the 5,000% income increase in the example, or standard of living.

Annualizing the Rate of Inflation Formula

As with annualizing any monthly rate, the monthly rate of inflation can not be annualized by simply multiplying it by 12, as this does not consider compounding. The same concept can be applied to adding each monthly percentage change in the consumer price index as an attempt to find the annual percentage change in the consumer price index. The proper way to calculate the annual rate of inflation is to use the year's initial and ending CPI in the formula.



Formulas related to Rate of Inflation: Real Rate of Return

Rate of Inflation Calculator

How to calculate Compound Interest


Compound Interest Formula
The compound interest formula calculates the amount of interest earned on an account or investment where the amount earned is reinvested. By reinvesting the amount earned, an investment will earn money based on the effect of compounding.
Compounding is the concept that any amount earned on an investment can be reinvested to create additional earnings that would not be realized based on the original principal, or original balance, alone. The interest on the original balance alone would be called simple interest. The additional earnings plus simple interest would equal the total amount earned from compound interest.

Rate and Period in Compound Interest Formula

The rate per period (r) and number of periods (n) in the compound interest formula must match how often the account is compounded. For example, if an account is compounded monthly, then one month would be one period. Likewise, if the account is compounded daily, then one day would be one period and the rate and number of periods would accommodate this.

Example of Compound Interest Formula

Suppose an account with an original balance of $1000 is earning 12% per year and is compounded monthly. Due to being compounded monthly, the number of periods for one year would be 12 and the rate would be 1% (per month). Putting these variables into the compound interest formula would show
Compound Interest Formula Example
The second portion of the formula would be 1.12683 minus 1. By multiplying the original principal by the second portion of the formula, the interest earned is $126.83.
Simple Interest vs. Compound Interest
Using the prior example, the simple interest would be calculated as principal times rate times time. Given this, the interest earned would be $1000 times 1 year times 12%. After using this formula, the simple interest earned would be $120. Using compound interest, the amount earned would be $126.83. The additional $6.83 earned would be due to the effect of compounding. If the account was compounded daily, the amount earned would be higher.
Compound Interest Formula in Relation to APY
The compound interest formula contains the annual percentage yield formula of
APY
This is due to the annual percentage yield calculating the effective rate on an account, based on the effect of compounding. Using the prior example, the effective rate would be 12.683%. The compound interest earned could be determined by multiplying the principal balance by the effective rate.
Alternative Compound Interest Formula
The ending balance of an account with compound interest can be calculated based on the following formula:
Ending Balance with Compound Interest Formula
As with the other formula, the rate per period and number of periods must match how often the account is compounded.
Using the prior example, this formula would return an ending balance of $1126.83.



Formulas related to : Simple Interest
                            Annual Percentage Yield
                            Continuous Compounding
                            Holding Period Return
                            Geometric Mean Return

Compound Interest Calculator

For comparison, simple interest is Principal x Rate x Time

Annual Percentage Yield

Annual Percentage Yield Formula

The Annual Percentage Yield (APY), referenced as the effective annual rate in Finance, is the rate of interest that is earned when taking into consideration the effect of compounding.
There are various terms used when compounding is not considered including nominal interest rate, stated annual interest rate, and annual percentage rate(APR).
In the formula, the stated interest rate is shown as r. A bank may show this as simply "interest rate". The annual percentage yield formula would be applied to determine what the effective yield would be if the account was compounded given the stated rate. The nin the annual percentage yield formula would be the number of times that the financial institution compounds. For example, if a financial institution compounds the account monthly, n would equal 12.

Example of Annual Percentage Yield

An account states that its rate is 6% compounded monthly. The rate, or r, would be .06, and the number of times compounded would be 12 as there are 12 months in a year. When we put this into the formula we have
Example of Annual Percentage Yield
After simplifying, the annual percentage yield is shown as 6.168%.

Formulas related to Annual Percentage Yield: Compound Interest
                                                            Holding Period Return

APY Calculator

Banking Formulas


  • Annual Percentage Yield
  • Balloon Loan - Payments
  • Compound Interest
  • Continuous Compounding
  • Debt to Income Ratio (D/I)
  • Loan - Balloon Balance
  • Loan - Payment
  • Loan - Remaining Balance
  • Loan to Deposit Ratio
  • Loan to Value (LTV)
  • Simple Interest
  • Annuity Due Payment - PV

    Annuity Due Payment from Present Value Formula
    The annuity due payment formula using present value is used to calculate each installment of a series of cash flows or payments when the first installment is received immediately. This particular formula uses the present value of the cash flows to calculate the payment.
    Using present value versus using future value to calculate the payments on an annuity due depends on the situation. For example, if an individual is wanting to calculate the amount needed to save per year, starting today, in order to have a balance of $5000 after 5 years in an interest account, then the future value version would be used as $5,000 is the future value. This balance for this example would be increasing until it reaches the future value. However, the annuity due payment formula using present value would be used in situations where the balance is decreasing such as a periodic payout of the existing balance in an interest account.

    Example of the Annuity Due Payment Formula Using Present Value

    An example of the annuity due payment formula using present value would be an individual who would like to calculate the amount they can withdraw once per year in order to allow their savings to last 5 years. Suppose their current balance, which would be the present value, is $5,000 and the effective rate on the savings account is 3%.
    It is important to remember that the individual's balance on their account will reach $0 after the 4th year or more specifically, the beginning of the 5th year, however the amount withdrawn will last the entire year composing a total of 5 years.
    The equation for the annuity due payment formula using present value for this example would be:
    Example
    After solving, the amount withdrawn once per year starting today would be $1059.97. Actual amounts may vary by a few cents due to rounding.

    How is the Annuity Due Payment from Present Value Formula Derived?

    In order to arrive at the annuity due payment formula using present value, first the present value of annuity due formula must be considered, which is:
    PV of Annuity Due
    Since we are solving for the payment, P, the other portions of the formula can be factored out in order to solve for the payment, which resolves to the following formula:
    Uncompleted
    From here, the middle section of this formula can be reduced by multiplying the numerator, 1, by the inverse of the denominator which results in the formula shown at the top of the page.

    Formulas related to Annuity Due Payment (PV): Annuity Due Payment (FV)
                                                                    PV of Annuity Due
                                                                    Annuity Payment (PV)

    Annuity Payment (PV)

    Annuity Payment Formula
    The annuity payment formula is used to calculate the periodic payment on an annuity. An annuity is a series of periodic payments that are received at a future date. The present value portion of the formula is the initial payout, with an example being the original payout on an amortized loan.
    The annuity payment formula shown is for ordinary annuities. This formula assumes that the rate does not change, the payments stay the same, and that the first payment is one period away. An annuity that grows at a proportionate rate would use the growing annuity payment formula. Otherwise, an annuity that changes the payment and/or rate would need to be adjusted for each change. An annuity that has its first payment due at the beginning would use the annuity due payment formula and the deferred annuity payment formula would have a payment due at a later date.
    The annuity payment formula can be used for amortized loans, income annuities, structured settlements, lottery payouts(see annuity due payment formula if first payment starts immediately), and any other type of constant periodic payments.

    Per Period

    The rate per period and number of periods should reflect how often the payment is made. For example, if the payment is monthly, then the monthly rate should be used. Likewise, the number of periods should be the number of months. This concept is important to remember with all financial formulas.

    Annuity Payment Formula Explained

    The annuity payment formula can be determined by rearranging the PV of annuity formula.
    Present Value of Annuity
    After rearranging the formula to solve for P, the formula would become:
    Solve for Payment
    This can be further simplified by multiplying the numerator times the reciprocal of the denominator, which is the formula shown at the top of the page.


    Formulas related to Annuity Payment: PV of Annuity
                                                       Loan Payment
                                                       Equivalent Annual Annuity
                                                       Annuity Payment Factor
                                                       Annuity Payment (FV)
                                                       Annuity Due Payment (PV)

    Annuity Payment Calculator (PV)

    jeudi 12 septembre 2013

    Motorbike Insurance - Get a quote today

    Motorbike Insurance, car insurance, compare, quote,
    Compare, motorcycle insurance comparison becomes a simple task. Let your favourite motorcycling paper do the searching for you AND save money. Click below to get motorbike insurance quotes in just a few minutes. 

    Prefer to talk to someone on the phone? Call 0844 409 7587 for a quote.

    Your Feedback

    "I saved £200 insuring my Guzzi 1200 Sport, even with clothing cover included” Steve L, Methlick
    “I had been with my previous insurer for four years and when their renewal arrived for £540. I used MCN Compare. It was very easy and I was surprised at the quotes, paying £165 for an R6” Jason C, High Wycombe
    “I saved an absolute fortune on my bike insurance, over £300 on fully comp with RAC cover thrown in for a limited edition Daytona Special”Matt B, Sheffield

    Specialist Insurance

    Insurance advice & news

    Insurance by Manufacturer

    Our brokers

    MCN Compare works with all these top motorbike insurance brands to find the best quote:

    Easy to follow motorcycle insurance comparison

    Get an insurance quote from a wide range of trusted motorbike insurers. Our form is quick and simple to use and in just a few steps you can view multiple quotes, saving you time and effort surfing the web.
    MCN Compare doesn't just save you time either - you could have more money in your pocket too. Customers can save over £150** through comparing motorcycle insurance quotes with us. It you're a moped rider, then we do moped insurance too, so don't forget to check out MCN Compare to get a good deal.
    You can also find a wide range of motorcycle insurance help and advice, with numerous articles on how you can get a cheap motorcycle insurance deal, plus advice on a wide range of bike insurance topics, such as insurance for amateur motorsport, travel, guides to safe commuting and more. You can find the necessary motorcycle insurance advice right here, then compare bike insurance in just a few steps.
    Terms and conditionsFor full terms and conditions, click here  eVoucher redeemable on helmets and clothing (excl. casual clothing) only at www.sportsbikeshop.co.uk.15% of 560 MCN Compare customers surveyed in December 2011 saved over £150 on their insurance. The average saving was £94. Source: Bauer Research.Largest selection of brands based on research undertaken in December 2010.

    More car insurance guides