This is only a Preview!

You must Publish this diary to make this visible to the public,
or click 'Edit Diary' to make further changes first.

Posting a Diary Entry

Daily Kos welcomes blog articles from readers, known as diaries. The Intro section to a diary should be about three paragraphs long, and is required. The body section is optional, as is the poll, which can have 1 to 15 choices. Descriptive tags are also required to help others find your diary by subject; please don't use "cute" tags.

When you're ready, scroll down below the tags and click Save & Preview. You can edit your diary after it's published by clicking Edit Diary. Polls cannot be edited once they are published.

If this is your first time creating a Diary since the Ajax upgrade, before you enter any text below, please press Ctrl-F5 and then hold down the Shift Key and press your browser's Reload button to refresh its cache with the new script files.


  1. One diary daily maximum.
  2. Substantive diaries only. If you don't have at least three solid, original paragraphs, you should probably post a comment in an Open Thread.
  3. No repetitive diaries. Take a moment to ensure your topic hasn't been blogged (you can search for Stories and Diaries that already cover this topic), though fresh original analysis is always welcome.
  4. Use the "Body" textbox if your diary entry is longer than three paragraphs.
  5. Any images in your posts must be hosted by an approved image hosting service (one of: imageshack.us, photobucket.com, flickr.com, smugmug.com, allyoucanupload.com, picturetrail.com, mac.com, webshots.com, editgrid.com).
  6. Copying and pasting entire copyrighted works is prohibited. If you do quote something, keep it brief, always provide a link to the original source, and use the <blockquote> tags to clearly identify the quoted material. Violating this rule is grounds for immediate banning.
  7. Be civil. Do not "call out" other users by name in diary titles. Do not use profanity in diary titles. Don't write diaries whose main purpose is to deliberately inflame.
For the complete list of DailyKos diary guidelines, please click here.

Please begin with an informative title:

I was asked to do one of these about weight and balance. The recent crash of a National Air Cargo 747 shortly after takeoff makes this very topical.

What probably happened is that their load shifted when they rotated to takeoff, which threw the plane out of balance. They were carrying Army MRAPS (a heavy armored truck) out of Afghanistan. It is thought that one or more broke loose and rolled towards the back of the aircraft.

I've watched the video and it's horrifying. I'm not going to post it here for that reason. What I saw in the video was an excessively high pitch attitude, followed by a stall (wings rock and nose pitches down) and then, well.........you know. The crew reportedly called out "Load shift" over the radio.

If a 30,000 pound armored truck rolled to the back on takeoff I doubt there's much they could have done.

You don't have to worry about that so much on a passenger plane. Weight and balance does affect you, however.

You may have once lost your seat on a small commuter jet because they were weight limited or out of balance. Some of those planes can't carry a full load of passengers and a full load of fuel. If they had to add gas (maybe for weather) they might have had to kick some people off.

Today we'll take a look at how important weight and balance is and how we calculate it.


You must enter an Intro for your Diary Entry between 300 and 1150 characters long (that's approximately 50-175 words without any html or formatting markup).

Weight and balance is important in any aircraft, not just heavies.

If your friend invites you and 3 other people for a golf outing in his Cessna 172, be very wary. If he fills the gas tanks all the way - don't get on the plane! The plane may be out of balance and it is certainly overloaded. Very few light airplanes can carry a full load of passengers and full gas tanks.

We have a bit more leeway in a heavy jet, but it's still critical. At its most basic, we care about two things: how much we weigh and where that weight is distributed.

Calculating the weight is a matter of simple addition. We start with an empty airplane and then add up the weight of everything we put in it. That weight is constantly changing - as we burn off fuel we get lighter. In a 757, every hour in the air we burn off roughly 7000 pounds of fuel. That's not a trivial amount. This is why our fuel gauges read in pounds and our fuel flow indicators read pounds per hour.

Some of these numbers are estimates. We use a standard planning factor for the weight of the crew and the passenger haulers do the same for their passengers. It assumes that the average person weighs X number of pounds and carries Y pounds of stuff (purses, laptops etc) with them.

The FAA recently made that number bigger to reflect that Americans are getting, well, bigger. I always seem to end up in the middle seat between two of these bigger Americans. "So which NFL team did you say you played for sir?"

So let's look a few of the numbers we care about:

EMPTY WEIGHT = Weight of the airplane empty (simple enough)

Add the (estimated) weight of the crew and their stuff and we get:

BASIC OPERATING WEIGHT - We're not going to operate without a crew so this makes sense.

Add the cargo or passengers and we get:

ZERO FUEL WEIGHT - This is an important number because by adding our fuel at any given moment to this we'll always know how much we weigh.

Add the fuel and we get:

RAMP WEIGHT - this is as heavy as we're going to be. Somewhat important. There is a limit to how heavy the plane can be even just sitting on the ramp.

Burn off a little bit of gas starting the engines and taxiing to the runway and we're at:

TAKEOFF WEIGHT - also a very important number. This number, along with the runway and weather (winds, temperature, pressure) will be used to calculate our takeoff data.

LANDING WEIGHT - after we burn off gas getting to our destination this is what we'll weigh. Of course when we get there we'll check what our weight actually is and use that number in our calculations. This is just to make sure that we're legal to go. The plane is only certified to land below a certain weight.

So that's the "weight" portion of weight and balance. Pretty simple really.

Don't try to put more weight in the plane than it can hold.
Don't try to takeoff heavier than the plane can fly.
Don't try to land heavier than the plane can handle or you'll put too much stress on it.

The "balance" part is a little more complicated but at its most basic we don't want the plane to be too nose heavy or too tail heavy or we may not be able to control it.

Note that I haven't had to manually calculate a weight and balance in a very long time. That's handled by the people who load our aircraft and a computer program spits out a weight and balance sheet. All I do is check it to make sure it's within acceptable limits.

The calculations use a fixed point somewhere in the aircraft called a reference datum. This is determined by the aircraft manufacturer and is normally towards the front of the plane. It's an imaginary point that we only care about for purpose of calculations. I've never seen a big X that says "Reference Datum Here" on an airplane.

When we add weight to the plane, like a big crate of chickens, we note how far it is from the datum. This distance is called the arm. Think of it as a lever. The longer the lever, the more the force is multiplied.

Weight x Arm = Moment

So one chicken sitting 10 feet back from the datum is equal to 10 chickens only one foot from the datum.

Weight x Arm = Moment
Now we just calculate the Moments for everything we put on the plane and add them all together. This gives us the Total Moment. Divide Total Moment by Total Weight and we get the Total Arm. This tells us where our Center of Gravity is.

As long as that Center of Gravity is somewhere in the happy zone, we're good to go.

Now, if we try to stick all the chickens up front, even if they'd fit we'd be too nose heavy. We might not have enough control force in the elevator to bring the nose up for takeoff. Not good.

Or, let's suppose all the chickens ran to the back of the plane (that's why we keep them in cages). We'd be too tail heavy. We might not have enough control force to keep the nose down. Even if we did, the plane might become unstable because as we remember from a few chapters back, Center of Gravity must be forward of Center of Lift for the plane to be stable.

Who says chickens can't fly.
So what about the fuel? The fuel is carried mostly in the wings and where the wings meet the fuselage. That happens to be fairly close to the Center of Gravity so as the fuel burns off the CG doesn't change all that much.

Some planes, however, have extra fuel tanks in the belly for long range flying. As long as you burn the forward and aft belly tanks fairly equally it's not a problem. You don't want too much gas in the front or too much in the back. I'll talk more about the fuel system in a later chapter. Today we're just worried about the weight of the fuel.

I haven't talked about lateral (side to side) balance, just fore and aft. It's not a big deal with the passengers or cargo. The plane is much longer than it is wide, so there's not a lot of side to side moment. If the all chickens move to one side of the plane we're not going to do a barrel roll.

The side to side fuel balance is quite important, because the wings are very long. We keep an eye on the fuel burn and make sure each side burns at about the same rate. A few hundred pounds heavier in one wing is no big deal. In the 757 we can have up to a 1950 pound imbalance (one of those numbers I had to remember).

Not much else to it. I can distill this down to three simple rules:

Don't try to carry too much stuff.
Make sure you put everything where it needs to go.
Make sure it stays where you put it.

Extended (Optional)

Originally posted to Major Kong on Tue May 07, 2013 at 01:39 PM PDT.

Also republished by Kossack Air Force, Aviation & Pilots, Central Ohio Kossacks, and Community Spotlight.

Your Email has been sent.