3ac + 2ca = 3ac + 2ac = (3 + 2)(ac) = 5ac
5 + 10ac + 3b
3a(b+c)+2b(b+c)
Factorizing 3ab + 3ac gives 3a (b + c).Factorizing is to express a number or expression as a product of factors.When factorizing always look for common factors. To factorize (3ab + 3ac) look for the highest factor between the two terms (3a). 3ab + 3ac = 3a (b + c)
3ac
To factor the expression (6ab + 3ac), first identify the common factors in both terms. Here, the common factor is (3a). Factoring this out gives you (3a(2b + c)). Thus, the expression (6ab + 3ac) can be rewritten as (3a(2b + c)).
2Ca + 3O2 + 2C -> 2CaCO3
This is an algebra question. All you can do is sum similar terms. You get 6ab-5bc+2ac (same as 2ca) +ab+6bc-10ac = 7ab-8ac+bc
yes railways provide a bedsheet with a pillow for 3ac passengers
To factorise the expression (3ac - 6ad - 2bc + 4bd), first group the terms: ((3ac - 6ad) + (-2bc + 4bd)). From the first group, factor out (3a), giving (3a(c - 2d)). From the second group, factor out (-2b), yielding (-2b(c - 2d)). Now, combine the factored terms: ((3a - 2b)(c - 2d)).
The 3A has a mechanical distributor (points) and the 3AC has an "electronic" distributor.
The 3ac is the California version of the 3a. So, if you are in California, you need to use the 3ac to pass smog.
Calcium (Ca) is element. O2 and CaO are molecules.