5 with a exponent of 5
Answers
Answer:
3125
Step-by-step explanation:
5^5
= 5*5*5*5*5
= 25*5*5*5
=125*5*5
=625*5
=3125
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Answer:
5^5=3125
Step-by-step explanation:
Related Questions
PLEASE HELP!!! a. segment AB congruentsegment CDb. segment AB congruent d. segment BCc. segment AD congruent segment BCd. segment AC congruent segment BD
£ even numbers above 20 and less than 50 a=26,30,32,44,48 B=22,26,34 a)complete the venn diagram to show this information a number is chosen at random from random from the set £ b)work out the probability that the number is in set A or B
Simplest form of the expression 3sqrt750+3sqrt2058-3sqrt48.
Very fast please! How do you work out: 5x3/4
Answers
9 / 16 + 8 / 16 = ( 9 + 8 ) / 16 = 17 / 16 ;
9 /16 = 0. 5625
1/2 = 0.5
therefore , 9/ 16 +1 / 2 = 0.5625 + 0.5
= 1 .0625
Answers
Answer: His estimate is not reasonable because the time it took to cover the last distance is 24.1 minutes and it is below his estimate
Step-by-step explanation:
On his way to the farm, he covered a distance of 112.25 miles in 60 minutes.
Speed = distance/time.
So his speed is 112.25/60 = 1.87 miles per hour.
He visits a friend on the way, and thereafter drives 45 miles at the same speed. So he covered 45 miles at a speed of 1.87 miles per minute.
Time taken = distance / speed
Time it took him to cover 45 miles = 45/1.87 = 24.1 minutes
Answers
Answer:
the image was not clear....hope the values are correct
Answer is in the attached file.
Explanation please, not just the answer. Brainliest answer if you calculate it for 2 out of 251 total marbles as well.
Answers
Well, I agonized over this for a while, and I have something that we may want to consider.
The only probability formula I know how to use is
Probability = (number of possible successes) / (total number of possibilities).
Can we work with that ? Let's see . . .
The denominator of that fraction is the total number of ways to draw
10 marbles from a jar of 60 . . .
The first draw can be any one of 60 marbles. For each of those . . .
The second draw can be any one of the remaining 59. For each of those . . .
The third draw can be any one of the remaining 58.
.
.
etc.
So the total number of ways to draw 10 from 60 is
(60 x 59 x 58 x 57 x 56 x 55 x 54 x 53 x 52 x 51)
That's a very big number. My calculator says something that rounds to
2.736 x 10¹⁷. But my calculator only shows 10 digits, so it can't show
all 18 digits in the number. Fortunately, we don't need to see the whole
number written out. We'll just write it in factorial notation, and go on
to do the numerator of the fraction, which is going to be much harder.
That number that we just found is equal to (60!) / (50!) . It's going to be
the denominator of the big fraction.
Now for the numerator. That's going to be the number of ways that the
two red marbles can be included among the ten marbles drawn.
One red marble can be any one of the 10 marbles pulled out.
For each of those . . .
The other red marble can be any one of the other 9 that are picked.
So there are (10 x 9) = 90 ways for the selected 10 to include both red ones.
SO ! Now, the probability that the ten that are drawn will include the two
red ones should be (it might be, it could be) . . .
90 divided by (60! / 50!) .
Remember, that fraction on the right is just total number of ways
to pick 10 out of 60 . The probability of including both red ones
in the draw is 90 divided by that number. It's very small.
Again from my calculator, it's 3.29 x 10⁻¹⁴ percent.
I have no confidence in my answer, but I invite you to look it over, along with
all the real gurus out there.
If I'm wrong, then I've stolen only 5 points that I'm not entitled to, and at least
I did put some effort into it.
Giving you 20/120.
Simplify that to get 1/6. So you have a 1 in 6 chance of getting both the red marbles.
(I'm not 100% sure since it's been a while so you might want to get a second opinion.)
Not sure what you mean by the second part, but hope I provided some help :)
B.) a counterexample
C.) several true examples
D.) an informal proof
Answers
In order to prove a conjecture is always true is formal proof.
We have given that,
A.) a formal proof
B.) a counter-example
C.) several true examples
D.) an informal proof
We have to prove a conjecture is always true
In order to prove a conjecture is always true, you must show formalproof.
What is the conjecture?
A conjecture is a conclusion or a proposition that is proffered on a tentative basis without proof.
Therefore the first option is correct.
In order to prove a conjecture is always true is formal proof.
To learn more about the conjecture visit:
#SPJ2
Answer: A- a formal proof
Step-by-step explanation:
just is
B. Figure B
C. Figure C
D. Figure D
Answers
Answer:
A. Figure A
Step-by-step explanation:
The protractor on the top left has an arrow halfway inbetween 50° and 60, making the angle 55°.
Therefore, the answer is Figure A.