Anyone can throw a hyzer.
In fact, even for most beginners throwing a hyzer is as natural and involuntary as breathing. But getting the disc to not hyzer is like trying not to breathe.
Those who are highly skilled at making a golf disc turn in the direction opposite to its natural fade all know the ability is as much art as science. As much feel and touch as proper technique. But solve that puzzle, and you’ve just taken a giant leap in your evolution as a player.
There are two things that separate players who have truly mastered the flight of a golf disc and those who have not: the ability to throw a disc relatively straight for more than 150 feet, and the ability throw what is alternately known as an anhyzer or turnover shot. The two are actually connected as they both require the ability to iron out the muscle memory nearly everyone has that causes us to automatically throw golf discs on a hyzer angle.
Figuring out the latter usually leads to rapid improvement with the former – another reason why understanding and mastering the multiple components of a turnover shot will take your game up several notches. However, as explained below, teaching someone to throw turnover shots is more about explaining these different components and how they relate to one another than a simple ‘Step 1, Step 2, Step 3′ approach.
First let’s discuss the distinction between ‘turning the disc over’ and throwing an anhyzer shot. In a nutshell, to turn the disc over means to get it to curve in the direction opposite of that which in naturally wants to curve (fade). For instance, a right handed backhand shot will naturally fade left (immediately or eventually, depending on the disc), so a player wanting to get the disc to curve right needs to ‘turn it over’. Throwing an anhyzer is simply one of several ways to turn your disc over, all of which we’ll examine in detail.
No less than six primary factors affect to what degree your disc will (or will not) turn over: angle of release, release point, trajectory, the amount of spin on the disc, the wind, and of course the stability of the disc itself. Each of these can be manipulated – or in the case of the wind, leveraged – to create a desired flight path. More exciting still, they can be mixed together to create every conceivable shot.
A perfect analogy is the way the three primary colors – red, blue, and yellow – can be combined to create every other color imaginable. Now consider that you’re equipped with six factors that enable you to paint a masterpiece on every throw! It’s one of the reasons disc golf just gets better and better as you improve. Disc flight can also be compared to cooking in much the same way. Great dishes can be created from just a few simple ingredients. Let’s briefly examine each factor, then explore different ways to cook up some tasty, gourmet turnovers.
Angle of release and release point
The angle of release refers to the angle of the nose of the disc as it’s release. It’s the most obvious of all the factors to someone first trying to learn how to throw a turnover shot since it’s fairly logical that if angling the disc to one side results in a hyzer in one direction, then reversing the angle should help it turn in the other direction. Angle of release is the most important factor in throwing an anhyzer shot, which is reversing the angle to get the disc, from the time it leaves the handle, to turn the opposite direction of a hyzer. Hmmm. . . ANgle opposite of a HYZER. Anhyzer . . . if nothing else that’s a good way to remember the correct definition of the word.
Release point is pretty much what it sounds like- the point at which the disc is released. Most anhyzers should be released at a point higher than normal, especially those intended to continue on the anhyzer line for all or most of its flight. This is because a disc that is turning over isn’t gliding through the air. It’s falling as soon as it reaches its apex, therefore it needs to gets launched from a high release point and have a trajectory that takes the disc upward, so when it begins to fall, it has more time before it comes back to earth. Which brings us to trajectory.
While angle of release is determined by the angle of the nose of the disc when it’s released, trajectory is controlled by the line on which the disc is pulled back and released. When a disc is pulled back and throw on a line parallel to the ground, the trajectory should be relatively flat. If the trajectory is angled upward, that is of course the direction the disc will go. Trajectory is especially important when throwing turnover shots – and it almost always needs to be from low-to-high – since turnover shots need time to develop, and adding height is the simplest way to get it.
More than any of the other factors, the proper use of controlled spin to help a disc turn over is the mark of an expert. The stability of a disc is partially determined by how much spin it can handle before it’s natural fade is overcome. Throwing a disc hard and fast like you’d try to do when attempting a long drive is one way to generate lots of spin, but not every shot calls for 100 percent power. A really good player can increase the spin on a disc to manipulate its flight path without overdoing the power.
Spin, combined with angle of release, is also the key to achieving a flight where the disc flies straight or even fades for a distance before turning over. Have you heard of the term hyzer flip? It’s basically the shot I’m describing, but thrown full power. The disc is thrown on a hyzer line but at a certain point the spin is too much for the disc, resulting in turnover. With the right combination of angle, spin (and in this case raw power) and trajectory, the resulting flight path can be one where the disc begins on a hyzer line, then turns over for a period, and when the spin reduces again, ends up fading back into the hyzer line. Three turns on one throw- pretty cool.
But not as cool, in my opinion, as a shot that uses spin in a more subtle way to turn a disc over. This requires increasing spin without also cranking up the power, which is a skill that for most takes a while to refine.
You likely have heard or figured out that throwing into a headwind will turn a disc over/make a disc less stable, while a tailwind does the opposite. Very true. Wind is the one factor the player doesn’t control, but it has a big impact on the flight of a disc. When the wind is extreme, it’s the starting point for selecting a disc and flight strategy. When it’s more gentle, the wind is simply a fact that needs to be accounted for. Or more accurately, adjusted for. Depending on the wind, you might increase or decrease spin, throw with slightly more anhyzer angle, or (especially in the case of a good tailwind) make sure the trajectory is angled more sharply upward.
Factoring wind into you turnover recipe is a good example of how subtle adjustments and combinations of factors need to be to get just the shot you want. All other factors being the same, a shot thrown into a four-mile headwind will fly quite differently than a two mile crosswind. Remember that the next time you cry out to the heavens “That disc always turns over on this hole! Why did it fade out this time?!!” Which brings us to the final factor: the disc.
Disc type and stability
Back when I started playing a couple decades ago, the best advice I heard from the best players was this simple nugget: Pick a good all-purpose disc (back then that meant a Roc) and play with just that disc. Master that disc before throwing anything else. The wisdom there is that by learning with only that one disc, the player has no choice but to coax every shot out of that disc. I think that is still one of the best pieces of advice for new players because otherwise, players assume that pulling off technical shots or getting more distance is just a matter of finding the right disc for the job. Not true!
Think of it this way: In any pursuit imaginable, an expert with remedial equipment will still achieve expert results. A virtuoso violinist will produce incredible music with a beat up rental violin. But give a Stradivarius to a beginner, and it will emit the same hideous squawks as he makes with his inferior instrument.
I digress here for a good reason. Disc type and stability is indeed one of the six factors affecting a disc’s flight, but it has more in common with the wind than it does the other four factors. Once the disc is in your hand, you still need to know how to tune the dials of the other factors (and have the skill to do so) to get the flight you want. Like the wind, the disc, once selected, is an absolute that needs to be figured into the equation.
All that being said, the finest ingredients and the best equipment in the hands of an expert do make a big difference. An understable putter can be used for some amazing touch shots that turn at just the right time, then float to the target as softly as a feather. An overstable driver can be throw with full power on a sharp anhyzer angle and just the right trajectory to produce a dramatic S-turn that passes to the left of one grove of trees then the right of another on the way to a drop-in birdie. But a player is always better off possessing one disc and mastery of flight control than a bag stuffed with any 25 discs you care to name and only vague ideas of how to use them.
Watch for the next post soon in which the specific ingredients and techniques for several basic turnover shots will be discussed. In the meantime, go out to a field (if your weather permits) and experiment with the components that make up every turnover shot. See which ones work best for you. Try them with all your discs and discover the infinite ways one can make a disc fly.
Nice article once again. There is however one chapter that I’m not fully convinced of and it is the spin.
My understanding of the frisbee physics is that the spin actually stabilizes the flight making the disc less prone to both fade AND turn. So when you throw a hyzer flip you actually have more speed in relation to the spin than the disc can handle, not the other way around. This is exactly the reason why some people can throw understable putters flat for 300’+ while others turn them over at 200′.
So if you throw an anny, having a lot of spin will help you hold that anny line for longer. However, if you want the disc to turn mid flight, you need to have enough speed for the disc to do that. Adding more spin will not do that.
Spin stabilizes the disc whether it is over or understable. Speed is what makes the disc turnover. Spin makes the disc truly fly. All discs