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I’m sure it was just a typo, but Dmod = Dmac × (1 / (1 + YTM)).busprof wrote:For a non-option bond, efective and modified duration are essentially the same, and modified duration is equal to Macauley duration x (1/YTM). So that means that as the yield increases, Macauley Duration also goes down.
I encourage you to discover this on your own. In Excel, make a table for, say, a 10-year, annual-pay, 6% coupon, $1,000 par bond. Put the YTM in a cell, then the discounted cash flows (PV(CFt)) in a column (referring to the YTM cell), then a column with t × PV(CFt). Add up that last column and divide it by the price (the sum of the PV column); that’ll be the Macaulay duration. Then watch what happens as you change YTM.earlyriser wrote:Hi
Could someone please help with clearing this up for me. What would happen to the (Macaulay) duration of a bond if the yield to maturity increased?
Thanks for your time and help.
Nice catch. I’ve fixed it in the original post so as not to cause unnecessary confusion.S2000magician wrote:
I’m sure it was just a typo, but Dmod = Dmac × (1 / (1 + YTM)).busprof wrote:For a non-option bond, efective and modified duration are essentially the same, and modified duration is equal to Macauley duration x (1/YTM). So that means that as the yield increases, Macauley Duration also goes down.
Exactly.Nirmal K wrote:To be precise Dmod = Dmac × (1 / (1 + {YTM / n} )) where ‘n’ is equal to number of coupons per year
A very good way of looking at it.Nirmal K wrote:I would approach the understanding like this:
Statement 1: Mac Duration is defined as time taken to realize the invested money (Price).
Statement 2: When YTM increases Price decreases
Statement 3: When price decreases the invested money can be recovered in shorter Time
Conclusion: When YTM increases Duration decreases.
I hate being “that guy”, but I don’t think your logic necessarily follows. While price (PV) decreases, what’s important for Macauley duration is what percentage of the PV comes from various maturities of cash flows - after all, Macauley Duration is the PV-weighted average of the maturity, so the weights are what drives it. In other words, if the PV of all cash flows decreased proportionally with the price, all weights would stay the same, and having a lower price wouldn’t result in a lower duration.Nirmal K wrote:
I would approach the understanding like this:
Statement 1: Mac Duration is defined as time taken to realize the invested money (Price).
Statement 2: When YTM increases Price decreases
Statement 3: When price decreases the invested money can be recovered in shorter Time
Conclusion: When YTM increases Duration decreases.
0.09 and 0.42, respectively, actually.busprof wrote:Take s2000’s approach and hack together a little spreadsheet (always a great way to get intuition). Let’s take (for example) a 10-year, 10% annual coupon bond and calculate the % of the PV (the price) that comes from the 1st coupon relative to the % coming from the last coupon and the price. At a 10% YTM, the weight on the year-1 and year-10 cash flows are 0.01 and 0.42 respectively … .