People at my work have the highest ego and make you feel dumb when you don’t get it at first but you definitely do know how to teach thanks boss appreciate the video
Are we going to just not account for the 1st stud at the edge that takes up 1-1/2 inch? This like the 3rd straight video I’m watching that is making the same mistake unless I’m not understanding something…
the 16 on center rule is just to take into account that you end up with a joist at 4 foot (typical length) for your plywood lineup. Its just that you start at the edge of the board and doesnt matter how thick your joists are anyway
One thing i notice is you are not conidering a top plate at the apex to calculate the run which woul be the run minus half the thickness of the top plate which then gives the correct run. That way you have something to attach the rafters to.
Thanks for your clear explanation. I needed to find this out for my DIY project. One does not have to attend carpenter's school for some years to be able to enjoy building something. Even non carpenters like to build. We do not know all the details so we need help. You were open minded and unselfish in sharing knowledge and special thanks to you for this. The world needs more people like you.
Great and straightforward description. As a complete novice I feel like most anybody could reasonably operate a brake with these instructions. Thanks for recording.
I look at the numbers and I get overwhelmed. I take a few seconds to see what .88 x 16 = 14.08 means and I realize 14/16s it's 7/8s. Then I think to myself: "was that it?!" I'm drowning in a glass of water
Bend an I channel. 9 inch strip. Mark at 3 and 6. Bend 90. Roll and make a Z bend. Roll again and hem the Z bend. Roll again and form the J bend. Spin the part and repeat. 90, Z bend, hem, J bend.
Confused, you didn’t burn that 1/2” on the bottom plate on your layout. You allowed that 1/2” for sheathing?
Thank you sir
Backshots😩
Thank you this was easy to learn
brother than you got my master test tomorrow
Very well explain!
Terrible audio bud
Thank you so much for pointing this out. This exactly what I was looking for. Thank you again.
This is the easiest rod to read. Tenths and direct read rods make my brain hurt.
Hey thanks for this I know it was nearly a decade ago - but if you're still helping folks - this helped me :)
On a calculator, .42 × 16 = 6.72 round that up to 7, so that's 14 inches and 7/ 16ths for every foot of run
Thanks
How much
Now I understand how to read joist span charts in my IRC book! Thank you
Trick question: what is a one half pitch common rafter. Is it 6 x 12 or 12 x 12?
People at my work have the highest ego and make you feel dumb when you don’t get it at first but you definitely do know how to teach thanks boss appreciate the video
Are we going to just not account for the 1st stud at the edge that takes up 1-1/2 inch? This like the 3rd straight video I’m watching that is making the same mistake unless I’m not understanding something…
the 16 on center rule is just to take into account that you end up with a joist at 4 foot (typical length) for your plywood lineup. Its just that you start at the edge of the board and doesnt matter how thick your joists are anyway
Thank you so much for explaining some of the chart and making it understandable. Looking for part 2 now.
Best I’ve seen 👍🏻
Finish this one lol. I could have payed better attention in class
One thing i notice is you are not conidering a top plate at the apex to calculate the run which woul be the run minus half the thickness of the top plate which then gives the correct run. That way you have something to attach the rafters to.
Ridge thickness needs to be allowed for, 👍🔨🇮🇪
Thank you for doing multiplication the same way I was taught! Very refreshing! Thank you for helping me!
How do you read 524.59 on a grade rod ?
He read it as architectural using inches. Engineers convert to decimal
Don't you have to take off more then 3/4 if the slope rises above a 4?
Thanks for your clear explanation. I needed to find this out for my DIY project. One does not have to attend carpenter's school for some years to be able to enjoy building something. Even non carpenters like to build. We do not know all the details so we need help. You were open minded and unselfish in sharing knowledge and special thanks to you for this. The world needs more people like you.
4:26 No overhang discussed and won't be in this video. Video then loops.
Great demonstration-wish you would have continued down the framing square to show valley and jacks
Thank you for this
Now im ready to be pipe foreman
Thanks for sharing your knowledge. It is nice to know this
Thanks buddy that was so simple to understand,, to think how difficult ppl at work made it
Hey Mr Donnelly I have a couple questions is there any way you could message me email I really enjoy your channel
sooooooooooooooo confused
Po0pp0pp
Omg 1508
5968 not 5768
Great and straightforward description. As a complete novice I feel like most anybody could reasonably operate a brake with these instructions. Thanks for recording.
I look at the numbers and I get overwhelmed. I take a few seconds to see what .88 x 16 = 14.08 means and I realize 14/16s it's 7/8s. Then I think to myself: "was that it?!" I'm drowning in a glass of water
Thank you for this video it's helpful for me
I have a run of 15 and it will be on a 7 what is my rafter length
To the point and very easy to follow, instead of some complicated equations 👍
I find it helpful he explains those numbers on the framing square. The math is simple. A^2+B^2=Sqrt(C^2). Basic algebra really.
Cutting to mark?
Good Info, audio is way to low...
That was a great explanation. That totally helped me for class. dont see your over hang video.
Had no idea Robert Dinero knew how to do flashing
Just what I was looking for. Thankyou
Great video, so are b, c, d so on FS and we minus them?
Qual o valor da máquina ? i9teto@gmail.com
Bend an I channel. 9 inch strip. Mark at 3 and 6. Bend 90. Roll and make a Z bend. Roll again and hem the Z bend. Roll again and form the J bend. Spin the part and repeat. 90, Z bend, hem, J bend.
Thank you🙂