To: (Separate email addresses with commas)
From: (Your email address)
Message: (Optional)
Send
Cancel

Thanks!

Close

Two Easy Rules-of-Thumb For Calculating a 3-Degree Glide Slope

This story was made in partnership with ATP Flight School. Check out the full series here. Ready to become a pilot? Get started with ATP here.
Boldmethod

Have you ever found yourself chasing the glideslope on an ILS approach? How about the VASI or PAPI on a VFR final approach?

There's an easier way to do it. Groundspeed has a significant effect on descent rate, and there's a formula you can use to ballpark your feet per minute (FPM) descent, even before you get on glideslope.

The following formulas are a great way to get yourself on glide, and your GPS ground speed will make these rules-of-thumb extremely easy to use...

Option 1: Multiply Your Groundspeed By 5

If you're flying your aircraft on a roughly 3-degree glideslope, try multiplying your groundspeed by 5 to estimate your descent rate. The result will be a FPM value for descent that you should target. As you capture the glideslope, make adjustments as necessary.

Option 2: Divide Groundspeed In Half, Add "0"

Divide your groundspeed in half, add a zero to the end, and you'll have an approximate FPM of descent. This is another easy way to target an initial descent rate for a 3-degree vertically-guided approach, or a VFR descent into an airport.

Both formulas leave you with the same result. Choosing which formula to use comes down to which mental math you're more comfortable with.

How Wind Affects Descent Rate

A tailwind on final will result in a higher groundspeed, requiring a higher descent rate to maintain glideslope. The opposite is true for headwinds. Let's take a look at a few examples:

Example 1: Headwind of 25 Knots, Final Approach Speed of 100 Knots Indicated Airspeed.

Example 2: Tailwind of 25 Knots, Final Approach Speed of 100 Knots.

Useful For More Than Just ILS Approaches

Looking for a good way to plan out your 3 degree glideslope? These formulas are great references for most instrument approaches with vertical guidance, as well as following any 3-degree PAPI or VASI lights.

Have you used these formulas before? Tell us how you use them in the comments below.


Thinking about becoming a pilot? Get started with ATP Flight School, and find out how to start your aviation career here.


Images Courtesy:

Recommended Stories

Latest Stories

    Load More
    Share on Facebook Share on Twitter Share via Email