Cover image of Going Ballistic with Ryan Cleckner
(391)
Education
News & Politics
Sports & Recreation
Outdoor

Going Ballistic with Ryan Cleckner

Updated 10 days ago

Education
News & Politics
Sports & Recreation
Outdoor
Read more

Former special operations (1/75) sniper, bestselling author, and firearm industry executive and attorney Ryan Cleckner discussing all things firearms. Episodes will include classroom format lessons on shooting theory and technique and talk-show format discussions on all things shooting related.

Read more

Former special operations (1/75) sniper, bestselling author, and firearm industry executive and attorney Ryan Cleckner discussing all things firearms. Episodes will include classroom format lessons on shooting theory and technique and talk-show format discussions on all things shooting related.

iTunes Ratings

391 Ratings
Average Ratings
370
13
4
2
2

Great podcasts

By Strikermann - May 07 2019
Read more
Ryan is awesome in his descriptions. I can even understand what he is explaining

Fun and very useful

By mm32993 - May 05 2019
Read more
Solid, useful information provided in a fun and easy to understand way. Plus good side stories.

iTunes Ratings

391 Ratings
Average Ratings
370
13
4
2
2

Great podcasts

By Strikermann - May 07 2019
Read more
Ryan is awesome in his descriptions. I can even understand what he is explaining

Fun and very useful

By mm32993 - May 05 2019
Read more
Solid, useful information provided in a fun and easy to understand way. Plus good side stories.
Cover image of Going Ballistic with Ryan Cleckner

Going Ballistic with Ryan Cleckner

Updated 10 days ago

Read more

Former special operations (1/75) sniper, bestselling author, and firearm industry executive and attorney Ryan Cleckner discussing all things firearms. Episodes will include classroom format lessons on shooting theory and technique and talk-show format discussions on all things shooting related.

Rank #1: 91 - NM Long Range Course

Podcast cover
Read more

Ryan and two students from his recent long range course stay up after a day of training and discuss what they've learned so far.

Gun Reviews

Veteran Beard Products

Home Based FFL

Organizational Safety Tools

Jul 19 2019
1 hour 8 mins
Play

Rank #2: 83 - SOCOM's Advanced Sniper Rifle

Mar 13 2019
1 hour 9 mins
Play

Rank #3: 36 - Dry Practice, 224 Valkyrie

Podcast cover
Read more

Ryan and Jason discuss the importance of dry practice to get better at shooting and Ryan goes off on the new 224 Valkyrie.

Nov 16 2017
53 mins
Play

Rank #4: 43 - Spotting

Podcast cover
Read more

Ryan and Jason discuss introducing a new shooter to long range shooting and what it takes to be a better spotter.

Feb 14 2018
35 mins
Play

Rank #5: 39 - Coriolis Effect, Ryan's 80% Glock, Jason's Cerakote project

Podcast cover
Read more

Dec 06 2017
49 mins
Play

Rank #6: 45 - Q The Fix RIfle

Podcast cover
Read more

Mar 08 2018
46 mins
Play

Rank #7: 77 - Assault Weapon Ban!?!?!

Jan 16 2019
56 mins
Play

Rank #8: 4 - Minutes of Angle and Mils

Podcast cover
Read more
Ryan Cleckner explains what minutes of angle (MOA) and milliradians (mils) are and how to use them when shooting.  Ryan discusses how both of these units of measurement are angular measurements - an important distinction when learning how to use them (and even understand them).  It gets a bit numbers-heavy in the middle but stick with it and it'll make sense!  This is an episode that you may want to refer back to.
Jun 22 2016
40 mins
Play

Rank #9: 80 - Getting into Reloading!

Podcast cover
Read more

Check out our Gun Reviews and Ammo Giveaway!

Please support my Critical Event Management software and leave some good reviews for Mayday Safety on Google and FaceBook!

Support the show! Please use the following links to visit our friends:

Amazon: https://amzn.to/2Reyf68 Brownells: http://bit.ly/2zwQ3mf EuroOptic: http://bit.ly/2FJmDa7 Natches Shooter Supply: http://bit.ly/2ArwWdU Faxon Firearms: http://bit.ly/2Ary5Cl Palmetto State Armory: http://bit.ly/2P48KCM

Feb 20 2019
59 mins
Play

Rank #10: 52 - Cold Bore and Taking Your Time Learning to Shoot

May 19 2018
1 hour 6 mins
Play

Rank #11: 50 - Politics, NRA, and what happens when the peasants come for you?

Podcast cover
Read more

Jason and Ryan dive into firearms politics and wonder whether it's wise for us to be so quick to attack others - Yeti, NRA, and Tim Kennedy.

May 02 2018
40 mins
Play

Rank #12: 2 - Live Q+A - Rifling, Twist Rates, and Bullet Weights

Podcast cover
Read more
This live Q+A session was hosted on Facebook where viewers were asking Ryan questions live during the podcast. THE AUDIO IS LESS THAN DESIRABLE - I WILL FIX IT IN THE FUTURE. Ryan explains what rifling is, different methods used to create rifling and the pros and cons of each, and then discusses other user submitted topics such as barrel break-in and bullet weights. SKIP THE FIRST MINUTE OF THE VIDEO
Jun 15 2016
40 mins
Play

Rank #13: 37 - If you're not cheating, you're not trying

Podcast cover
Read more

The Cleckner boys talk about Jason's new rifle project and venture into the cerakote world and then they drift off into story time.

Ryan talks about being "Koalafied" and gives a military example of what the Range motto "If you're not cheating you're not trying, and if you get caught cheating, you're not trying hard enough." means. He shares his learned strategy for succeeding in the "stalking" exercises in special operations sniper school (SOTIC).

Jason and Ryan then dive into Boy Scouts vs. Cleckner Boy experience to include how they thought Jason's brother and Ryan's cousin was going to die from a "bear" attack and how Jason's dad dealt with him...in a tree.

If you're one of the listeners asking for more stories - here you go. :)

Nov 22 2017
56 mins
Play

Rank #14: 19 - RocketFFL, Reloading, and 6.5 Creedmoor

Podcast cover
Read more

Ryan announces his new project to help folks get their own FFL (RocketFFL.com), he answers some listener questions about reloading, and he finally converts to 6.5 Creedmoor. 

Mar 31 2017
24 mins
Play

Rank #15: 47 - 22 Trainers

Podcast cover
Read more

Mar 29 2018
1 hour
Play

Rank #16: 1 - Gravity's Effect on a Bullet's Path

Podcast cover
Read more
Ryan Cleckner introduces the first episode in his new podcast!  In this episode, Ryan explains how gravity is a constant, how it is an accelerative force, and how objects react to gravity.  These topics are applied to understand how the bullet fall the moment it leaves the barrel - even though it travels in an arc on the way to the target - and how bullet speed can affect how much a bullet drops.  But, don't confuse how much a bullet drops with how fast it drops.  Confused?  You shouldn't be!  Ryan breaks down this seemingly complex concept into plain language that anyone can understand.   Links: Transcript: When a bullet leaves your barrel it doesn’t travel in a straight line - no matter how fast it is.  There are external forces which immediately start to bring the bullet off of its original path.  The study of how a bullet behaves while in flight is called external ballistics.  Internal ballistics refers to what happens inside the firearm and terminal ballistics refers to what happens at the target.  External Ballistics is covered in chapter 10 of the Long Range Shooting Handbook. The biggest effect on your bullets path, except for hitting something in flight, is gravity.  Thankfully, it is also the easiest to account for.  This is because gravity is mostly constant no matter where you are on Earth. I say “mostly” because technically the force of gravity is different depending on where you are.  However the difference is so slight that we aren’t going to worry about it.  You see, the force of gravity depends on the mass of an object and how far away you are from that mass.  So, the further we are away from the center of the Earth, the less of an effect gravity has.  This is why there is less gravity on astronauts in orbit - they aren’t weightless and there is really no such thing as a location where there’s no gravity.  But because they are further away from Earth, the Earth’s gravity has less of an effect but it is still about 90% as strong as it is on the ground - they appear to be floating because they are orbiting. So, technically, there is a difference in the force of gravity between the highest and the lowest points on Earth.  So at the lowest point of land on Earth, around the Dead Sea, is a little over 1,300 feet below sea level.  And the highest point on Earth is a little over 20,000 feet above sea level.  Now, those of you that know your geography may be saying that Mt Everest is actually a little over 29,000 feet above sea level.  Well, you’re correct, but Mt Everest isn’t the highest point on Earth - at least it’s not if you're measuring from the center of the Earth.  For bonus points that have absolutely no value, does anyone know that the higher point on Earth actually is?  . . . . . .  It’s Mt. Chimborazo in Ecuador.  If you made a globe with accurate terrain features, Mt. Chimborazo would stick out further than Mt. Everest.  The reason Mt. Everest has a higher “above sea level” number is because the Earth isn;t a perfect circle and is wider around the equator (which is where Ecuador is) and the sea’s level is actually higher around the middle.  Therefore, if you’re measuring from the sea’s level, there’s more of a difference at Mt. Everest because the sea’s level is lower there.  Now, who would’ve thought we’d be covering geography on the Going Ballistic podcast? At these two extreme locations, there’s only a 0.4% difference in the force of gravity.  And, when other variables are considered, there might even be less of a difference.  The short of it is, it’s not going to make a difference for you - at least not as much of a difference as the other external factors.  If the change in gravity at different elevations makes a difference in your ability to hit a target, then you probably should be learning from me.  If you’re that good, contact me so I can schedule lessons from you. So, the force of gravity for our purposes is effectively constant on Earth.  Now, when I say “constant” i mean the force is effectively the same no matter where you are.  Gravity itself, however, does not make objects fall towards earth at a constant speed.  In fact, gravity is an accelerative force. You see, a steady/constant speed is a velocity.  It is expressed as a certain distance covered in a certain amount of time.  For example, a velocity is something like 75 miles per hour or 1,000 feet per second. A changing of velocity (going faster or slower) is an acceleration.  So, to say that something is accelerating means that it is speeding up - it’s velocity is increasing.  An acceleration is expressed as a distance covered in a certain amount of time squared.  Since gravity is an accelerative force, objects in free-fall due to gravity fall faster and faster the longer they are exposed to gravity.  An object’s speed will continue to increase until it reaches its terminal velocity - which is the speed at which the wind resistance equals the force of gravity. As an example, a skydiver with their arms and feet out to the side has a terminal velocity of about 120 miles per hour.  If the skydiver tucks into a ball or dives straight down, then they can reach speeds approaching 200 miles per hour.  So, when the skydiver exits the plane, they increase their free-fall speed from 0 up to their terminal velocity. The force of gravity is about 9.8m/s^2.  This means that at the end of the first second of free-fall, an abject is falling with a velocity of 9.8 m/s.  At the end of the next second, it is falling an additional 9.8 m/s faster for a total speed of 19.6 m/s. Why does all of this matter to us?  Great question, I’m glad you asked.  Before we get into how gravity affects your bullet in flight, let’s first establish that it does affect its path. I already mentioned that when a bullet leaves your barrel, it doesn’t travel in a straight line.  It sure would make things a lot easier if it did, though.  It would be so easy, in fact, that you wouldn’t be listening to a podcast on external ballistics nor would you be buying my Long Range Shooting Handbook.  So, at least I’m thankful.  These variables that change the bullet’s path are what make it challenging.  THey’re what make it fun to try to master.  I honestly believe that a lifetime can be spent trying to master the second biggest variable that affects a bullet’s flight, wind.  As I’ve heard it said before, if it weren’t for wind, everybody would be a sniper. Imagine a laser beam pointing straight out of your barrel.  That’s the bullet’s original path.  The moment the bullet leaves the barrel, it starts to fall due to gravity.  And I mean it starts to fall immediately.  Now, some of you may think that somehow the bullet’s horizontal speed prevents gravity from letting it fall.  This just isn’t true.  The horizontal speed of the bullet has nothing to do with how fast it falls.  Let me repeat that - this is one of two preconceived notions that some people have about a bullet’s behavior.  The horizontal speed of the bullet has nothing to do with how fast a bullet falls.  They all fall at the same speed. A fairly common physics problem compares a bullet dropped from your hand and a bullet fired from a perfectly horizontal barrel across flat ground.  If the bullet in your hand is dropped from that same height as and at the same moment as the fired bullet leaves the barrel, which one will hit the ground first?  The answer is that they will hit the ground at the exact same time!  There’s no momentum or other quality to a bullet flying across the ground that allows it to resist the downward for of gravity.  Now, this is because the force of the bullet flying through the air is straight forward while the force of gravity is straight down.  If you were to draw arrows forward and down representing the direction and magnitude of each force (that’d be called a vector, by the way), then the arrows would be 90 degrees from each other and therefore have no effect on each other.  If however, you were shooting up or down at an angle so that the forward and downward arrows were no longer 90 degrees, then you would see change in how long it takes to fall. So far we’ve established that gravity affects bullets about the same no matter where you are on our planet, gravity is an accelerative force, the bullet starts to fall the moment it leaves the barrel and that the bullet’s speed is irrelevant to how fast it falls. Let’s talk a little bit about the bullet falling the moment it leaves a barrel.  Earlier I mentioned that there were two incorrect pre-conceived notions I often hear about a bullet’s behavior in flight.  Here comes the second one - bullet’s don’t rise when they come out of the barrel.  It’s true that the bullet flies in an arc to the target, but it is falling from the original path the entire time.  How can this be? Well, go back to thinking about that laser beam coming out the the barrel from before.  If the laser beam was pointed directly at the target, the bullet would impact low.  Remember, this is because the bullet starts to fall the moment it leaves the barrel.  How far low depends on how far away the target is.  In order to compensate for the effect of gravity, we must angle our barrel upward.   Although our scope or sights are looking directly at the target, our barrel must be pointing up so that the bullet can fall off of its original path the whole way and hit where we are aiming at.  At 100 yards, the barrel is only slightly angle upward.  When we shoot farther away, however, we have to angle the barrel more an more to counteract the further amount the bullet is going to fall. This happens when we adjust our sights.  If I want to shoot a 500 yard target with my 308, for example, I’d likely come up 12 minutes of angle.  If you do know what minutes of angle are yet, don’t worry, we’ll cover them soon.  For now, just know that it is an angular adjustment that is made in a scope or sights.  When I adjust up 12 minutes of angle, the reticle in my scope actually goes down - it gets lowered.  This then requires that I raise the angle of the gun in order to get the now lowered reticle back onto the target.  When I raise the gun, I’m also raising the barrel to offset the greater amount he bullet is going to drop at 500 yards vs 100 yards. Therefore, our imaginary laser beam is pointed up at an angle and the bullet leaves the barrel and starts to fall away from the laser beam - it never stays on path with nor goes above that laser beam.  If the laser beam and barrel were angled upward at a 45 degree angle, the bullet’s actual path, as it gets further and further from the laser beam, would look like an arc all the way to the target.  So, yes, it travels in an arc and it gets further away from the ground on the way to the target, but it is falling the whole way. The arc to the target isn’t a perfect arc - it is a parabolic arc - it starts of gradual and gets very steep towards the end.  This means that the bullet is falling more and more the farther it goes downrange.  There are two reasons for this…. First, as we discussed earlier, the bullet is falling faster the longer it is exposed to gravity.  Therefore, in the first second of flight it is falling slower than it is in the last second of flight. Second, in addition to the bullet falling faster, it is also taking longer to travel each horizontal distance.  The bullet also start slowing down the moment it leaves the barrel because of the drag from wind resistance.  This means that the bullet travels between the 100 and 200 yard burms on the range faster than it travels between the 700 and 800 yard burms. So, not only is the bullet dropping faster as it goes down range, it has more time to drop down range too.  This translates into larger adjustments needed to compensate for bullet drop between 700 and 800 yards than you need between 100 and 200 yards.  For example, my 308 requires 2 minutes of angle adjustment to move between the 100 and 200 yard burms.  It requires 5 and a half minutes of angle to adjust between the 700 and 800 yard burms. Let’s go back to the beginning of this podcast.  Didn’t I say that gravity, although it has the biggest effect, it is also the easiest to account for?  After all of this you might be a little lost and that’s ok.  The beauty of gravity being effectively the same wherever you shoot is that you can predict what your bullet will do on the future.  If if took a total adjustment of 12 minutes of angle to hit the 500 yard target, then it will require the exact same adjustment for gravity the next time you shoot that target - kind of. Here’s the bad news….although gravity is consistent, many of the other variable we are going to discuss in future episodes are not.  For example, temperature and air density can both change how long it takes for the bullet to reach a target.  And, the longer it takes - the longer it is exposed to gravity - the more it will fall - and the more you’ll need to adjust in order to hit the target. I hope you caught that point there - the amount a bullet falls due to gravity is directly related to time.  But, didn’t I just tell you that a bullet’s speed is irrelevant to how fast it falls?  Well, both are true.  A bullet falls at the same speed regardless of how fast it is traveling horizontally.  But, when a faster bullet reaches the target before a slower bullet, it wasn’t exposed to gravity for as much time and therefore won’t fall as much.  Let’s recap that.  If you shoot a fast bullet and a slow bullet at the same target, the faster bullet will not drop as much as the slower bullet.  It isn’t because the faster bullet somehow resists falling.  Instead, both bullets are falling at 9.8m/s^2.  It’s just tat the fast bullet had less seconds to fall before it hit the target. So, what are you supposed to do with all this?  Soak it in.  This lesson won’t make you shoot better.  Perhaps I should’ve told you that at the beginning.  Instead, I hope that this lesson helps you understand the concepts involved with gravity in shooting and prepares you for future episodes.  Also, by knowing what is going on, you’ll be able to understand and apply more advanced concepts later. I hope you’ve enjoyed this podcast.  I plan to have many more lessons and and discussions about all sorts of firearms related topics in the future.  If you’d like to support my efforts and help me make more of these episodes, you can: Subscribe to this podcast Leave feedback in iTunes Tell your friends and, of course, you can purchase a copy of the Long Range Shooting Handbook. As a celebration of my first podcast, I’m going to sell the next 25 copies of my book at half price through the book’s website when you use the code PODCAST.  The link is available in this show’s notes at GoingBallisticPodcast.com/1 and only the first 25 uses count. Thanks again, and tune in next time to Going Ballistic with Ryan Cleckner
Jun 14 2016
18 mins
Play

Rank #17: 56 - 308/7.62mm and the Sig p365

Podcast cover
Read more

Jun 28 2018
54 mins
Play

Rank #18: 49 - Listener Feedback, Estimating Range, New Kid's Firearm Safety Book

Podcast cover
Read more
Apr 18 2018
51 mins
Play

Rank #19: 62 - Sig's SURG SOCOM win, NRA's future

Podcast cover
Read more

Aug 22 2018
35 mins
Play

Rank #20: 25 - Training and Budget Hunting Rifles

Podcast cover
Read more

Ryan and Jason re-visit the Sig 320 issue, they discuss budget vs. quality options for hunting rifles, Ryan finally comes around and love the Barrett MRAD, and they discuss some long range training.

Aug 23 2017
51 mins
Play

Similar Podcasts