⭐︎✳︎⭐︎✳︎⭐︎✳︎⭐︎✳︎⭐︎✿⭐︎✳︎⭐︎✳︎⭐︎✳︎⭐︎✳︎
Hi my lil bunny!
❀ _____.______❀_______._____ ❀
So the answer is :
❀ _____.______❀_______._____ ❀
Xoxo, , May
⭐︎✳︎⭐︎✳︎⭐︎✳︎⭐︎✳︎⭐︎✿⭐︎✳︎⭐︎✳︎⭐︎✳︎⭐︎✳︎
Hope this helped you.
Could you maybe give brainliest..?
Answer:
The probability that cards # 1, # 2, and # 3 are still in order on the top of the stack is 0.045%.
Step-by-step explanation:
Since a politician is about to give a campaign speech and is holding a stack of thirteen cue cards, of which the first 3 are the most important, and just before the speech, she drops all of the cards and picks them up in a random order, to determine what is the probability that cards # 1, # 2, and # 3 are still in order on the top of the stack, the following calculation must be performed:
1/13 x 1/13 x 1/13 = X
0.076 x 0.076 x 0.076 = X
0.00045 = X
0.00045 x 100 = 0.045
Therefore, the probability that cards # 1, # 2, and # 3 are still in order on the top of the stack is 0.045%.
Number 13 is 40 in
number 14 is 2.5
Answer:
No solutions
Step-by-step explanation:
Given two linear equations in slope-intercept form with same slopes but different y-intercepts.
To find the number of solutions,we can get for this system of equations.
Solution:
The slopes of two lines say and are related as:
only when the lines are parallel or if both are equations of same line.
And since the y-intercept of given lines are different, so we can conclude that the equations are of two different lines that are parallel to each other.
Thus the given system of linear equations with same slope but different y-intercepts will have no solution as the given lines are parallel to each other and hence would never meet.
Messages: 60
15% = .15
(60) x (.15) = 9
The answer is 9 messages, hope this helps!