Comment on I dunno
mindbleach@sh.itjust.works 5 days agob*c is the product of b and c.
Show me one textbook where a(b+c)^2^ gets an a^2^ term. Here’s four in a row that say you’re full of shit.
Comment on I dunno
mindbleach@sh.itjust.works 5 days agob*c is the product of b and c.
Show me one textbook where a(b+c)^2^ gets an a^2^ term. Here’s four in a row that say you’re full of shit.
SmartmanApps@programming.dev 5 days ago
Nope! bc is the product of b and c - it’s right there in the textbook! 😂
Says person yet again who has proven they are full of shit about the definition of Terms 😂
mindbleach@sh.itjust.works 5 days ago
The result of a multiplication operation is called a product.
Show me one textbook where a(b+c)^2^ gets an a^2^ term. Here’s four in a row that say you’re full of shit.
SmartmanApps@programming.dev 4 days ago
Now you’re getting it - axb=ab. axb is Multiplication of 2 Terms, ab is the single Product. It’s the reason that 8/2(1+3) and 8/2x(1+3) give different answers 🙄
I already gave you many that tell you a(b+c)=(ab+ac) Mr. Ostrich - which part of a(b+c)=(ab+ac) are you having trouble understanding?
mindbleach@sh.itjust.works 4 days ago
Multiplying two things makes them one term.
“When a product involves a variable, it is customary to omit the symbol X of multiplication. Thus, 3 X n is written 3n and means three times n, and a X b is written ab and means a times b.” Modern Algebra: Structure And Method, page 36. Immediately before the definition you’re now lying about.
a(b+c) is the same as a*(b+c), and neither a(b+c)^2^ nor a*(b+c)^2^ produce an a^2^ term. You made it up. You’re just full of shit.