Answer:
2m+1
You would simplify the expression by subtracting the 3m by the m
Step-by-step explanation:
Answer:
See explanation below.
Step-by-step explanation:
We need to prove that there are no solutions of the equation: x =
Let's start trying to solve this equation:
To solve this equation, by factorizing the equation we get:
- Now we're going to substitute these numbers in the original equation:
For x = -6 we have:
x =
<u>But √-36 has no solution in the real numbers and therefore it cannot equal 6.</u>
<u>Since the left side is different than the right one, this is not a solution. </u>
Therefore the equation has no solution in the real numbers
Answer:
The answer is 27
Step-by-step explanation:
Just took a test :)
Answer:
1.2% is (1.2)/100 which equals 0.012
--------------------------------
0.012 as a fraction is:
12/1000=6/500=3/250
Answer: 999 games
Step-by-step explanation:
There are many ways to illustrate the rooted tree model to calculate the number of games that must be played until only one player is left who has not lost.
We could go about this manually. Though this would be somewhat tedious, I have done it and attached it to this answer. Note that when the number of players is odd, an extra game has to be played to ensure that all entrants at that round of the tournament have played at least one game at that round. Note that there is no limit on the number of games a player can play; the only condition is that a player is eliminated once the player loses.
The sum of the figures in the third column is 999.
We could also use the formula for rooted trees to calculate the number of games that would be played.
where i is the number of "internal nodes," which represents the number of games played for an "<em>m</em>-ary" tree, which is the number of players involved in each game and l is known as "the number of leaves," in this case, the number of players.
The number of players is 1000 and each game involves 2 players. Therefore, the number of games played, i, is given by