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# Comment on What is the formula for calculating the mortgage constant when payments are made at the beginning of the period? by Acccumulation

In this case, the mortgage constant (or loan constant or debt constant) is the (in my case, annual) ratio of constant payments to the original amount, like here: http://www.double-entry-bookkeeping.com/periodic-payment/how-to-calculate-a-debt-constant/

Suppose we have an annual interest rate of 4.565% and 360 payments (30 year loan). In Excel, we can specify the following formula:

``````PMT(0.04565/12, 360, -1, 0, 1) * 12
``````

Where present value is \$1, future value is \$0, and Type=1 signifies that payments are due at the beginning of the period. The result is 6.1034%.

When I apply the mathematical formula, it assumes that payments are made at the end of the period (or am I wrong?), so where

``````Debt Constant = (Interest Rate/12) / (1 - (1 / (1 + Interest Rate/12))^n) * 12
= (0.04565/12) / (1 - (1 / (1 + 0.04565/12))^360) * 12
= 6.1267%
``````

How is the formula adjusted to account for the payments made in the beginning of the period, since the actual value for the purposes of this calculation is not known? Or am I misunderstanding something?

#### 2 thoughts on “What is the formula for calculating the mortgage constant when payments are made at the beginning of the period?”

1. Chris Degnen November 30, -0001 at 12:00 am

Your mathematical formula can be adjusted by dividing by `(1 + Interest Rate/12)`, i.e.

``````Debt Constant =
(0.04565/12)/(1 - (1/(1 + 0.04565/12))^360)*12/(1 + 0.04565/12) =
0.0610344
``````

The syntax for the Excel formula is

``````PMT(rate, nper, pv, [fv], [type])
``````

Ref. Excel PMT function

type = 1 is for payments at the beginning of the period, so you are calculating the payments for an annuity due.

``````PMT(0.04565/12, 360, -1, 0, 1) * 12 = 0.0610344
``````

Your mathematical formula is for an ordinary annuity; payments made at the end of the period.

Related info:
Calculating The Present And Future Value Of Annuities

Formula for an annuity due (payments at the beginning of the period)

With principal `s`, `n` periods, periodic rate `r` and periodic payment `d`

``````s = 1
n = 360
r = 0.04565/12
``````

The principal equals the sum of the payments discounted to present value.

``````∴ d = (r (1 + r)^(-1 + n) s)/(-1 + (1 + r)^n) = 0.0050862

12 d = 0.0610344
``````

Derivation of formula

Using the geometric sum theorm

https://en.wikipedia.org/wiki/Geometric_series#Formula

2. Acccumulation November 30, -0001 at 12:00 am

Suppose you started with the formula for payments at the beginning of the period, and wanted to know how to adjust it for payment at the end. Well, each payment is accruing interest over an entire period. So you would have to multiply each payment by the interest factor for each period. The interest rate over a period is the interest rate per year divided by the number of periods per year. Since there are 12 period each year, the interest rate per period is 0.04565 (the interest given on a yearly basis) divided by 12. The total amount is the principal plus the interest rate times the principal:

principal + (interest rate)*principal

Factor out the principal, and you get:

principal*(1+interest rate)

So we get that the factor is 1+interest rate = 1+0.04565/12

That is the factor we have to multiply by to get from “beginning of period” to “end of period”, so we have to divide by that to go the other way.