Answer:
I think the 4th one because it is a square greater than the 3rd one-
if I am wrong I’m sorry
<span><span>You draw a queen on the first draw and one on the second<span><span><span>4/52 </span>∗ <span>3/51 </span>= <span>12/2652 </span>= <span>1/22 </span></span></span></span><span>
You draw something other than a queen on the first draw and a queen on the second<span><span><span>
48/52 </span>∗ <span>4/51 </span>= <span>192/2652</span>=<span>16/221</span></span></span></span></span>
So in total, the chance is:
<span><span><span>1/221 </span>+ <span>16/221 </span>= <span>17/221</span>=
<span>4/52</span></span></span>
⃝⃝⃝ Hello there! ☆☆☆☆☆
There are 6 red apples.
We have 13 apples. 7 are green. The amount of red apples is found by:
13-7=6
:)
I hope this helps you!
To graph both lines the first thing you should do is assign values of x to each equation and then get "y". Finally you must join the points.
The solution for f (x) = g (x) is
2x-1 = -x + 5
3x = 6
x = 6/3 = 2
To find "y"
f (2) = 2 (2) -1 = 3
or equivalently
g (2) = - 2 + 5 = 3
The solution is then the ordered pair (x, y) = (2,3). Graphically this is the point where both lines are cut. See attached graph.