<em>Greetings from Brasil...</em>
G = {4; 8; 12; 16; 20; 24; 28; 32; 36; 40; 44; 48; 52; 56; 60; 64; 68; 72; 76; 80; 84; 88; 92; 96; 100; 104; ...}
F = {1; 4; 9; 16; 25; 36; 49; 64; 81; 100; ...}
So, according to the statement, it is desired:
G ∩ F - the intersection between the 2 sets, that is, which numbers are present simultaneously in the 2 sets....
Looking at the sets we conclude that
<h2>G ∩ F = {4; 16; 36; 64; 100}</h2><h2 /><h2 />
<em>OBS: note that in truth G are the multiples of 4</em>
Answer:
264
Step-by-step explanation:
3 doesn't round up so it would be 2636 but 6 does so add 1 to 3 and its (264)
y = 21
i might be wrong, sorry if i am!!
B X Intercpt and the y intercep
to get the numbers in step 3
multiply -1.6 by 3
then multiply -1.6 by 0.1
and add them together
answer is D) (–1.6)(3) + (–1.6)(0.1)
