Great question! Supplementary angles and linear pairs both add up to 180 degrees, but: Vertical pairs are 2 angles that HAVE TO touch ( they have to share a vertex and side). Supplementary angles can touch (and often do), but they don't HAVE TO. You can have 2 completely different angles that don't touch, but as long as they add up to 180 degrees, you can say they are supplementary 👍
@aaravkumar8788 They're very similar. All angle pairs are also supplementary angles. But not all supplementary angles are angle pairs, because sometimes supplementary angles don't touch. I'm glad I could clear that up for you though, and go crush that test today you friggin genius! 💪🧠😃
I started 7th grade around 1 month and like 2 weeks ago and I started failing math so fast i found it so difficult and never understood when the teacher explained but after seeing this video i literally understood all the basics thank you so much for making this video definitely subscribed.
I’m homeschooled and this was my lesson for today, you made it very clear and very easy to understand! Thank you so much! You made math enjoyable! Keep up the good work!
You're welcome! And I always use a black background but I'll make sure to use brighter colors that stand out more going forward, so thank you for letting me know 🙏
Good question! Angle 7 forms a linear pair with 6 and 8, but not 9. The reason is because 6 and 7 are supplementary, 7 and 8 are supplementary, but 7 and 9 are vertical or "opposite" angles, they're NOT supplementary. And remember, Linear Pairs are just 2 angles that are supplementary. Hope that helps 👍
They would be if ray M wasn't in between L and N. Supplementary angles are 2 angles that add up to 180° But since M is in between L and N, that creates a total of 3 angles that add up to 180° So again, if M wasn't there, they would be supplementary. But since M is there, we can't just ignore it, so no they're not supplementary. Great question though! 👍
@@Eat_Pi Usally I cant stay entertained for long and just skip the video but this really helped me out. i have a huge math test tommorow covering this stuff.
I have a question when we have an isosceles trapezoid and we want to use the property that says the angles adjacent to one of the bases are equal how can I use this property