You should specify your intended order of operations. You could calculate the expression to equal 23, (15 plus 8) or you could calculate it to equal 100 (5 times 5 times 4).
-2 times 3 is -6 and add 2 you get -4
You can use the fact that 4 is equal to 2 times 2 and the fact that 9 can be expressed as 3 times 3. By multiplying these facts, you can calculate 4 times 9 as follows: 4 times 9 equals (2 times 2) times (3 times 3). This can be rearranged to (2 times 3) times (2 times 3), which simplifies to 6 times 6, giving you 36 as the answer.
To calculate (6! \times 2! \times 4! \times 3!), we first find the factorials: (6! = 720) (2! = 2) (4! = 24) (3! = 6) Now, multiplying these together: (720 \times 2 \times 24 \times 6 = 207360). Thus, (6! \times 2! \times 4! \times 3! = 207360).
The two numbers that satisfy this condition are 3 and 4. When added, (3 + 4 = 7), and when multiplied, (3 \times 4 = 12). However, to find two numbers that both add and multiply to 12, we can use 2 and 6. (2 + 6 = 8) and (2 \times 6 = 12). Thus, the numbers that give the same result when multiplied (12) are 3 and 4, but they do not satisfy the addition condition.
2 times 2/3 = 4/3
-2 times 3 is -6 and add 2 you get -4
1/4 times 2/3 = (1 times 2)/(4 times 3) = 4/6 = 2/3
-8t+2
1, 2, 3, 4 , 5
2 x 3 x 4 = 24
You can use the fact that 4 is equal to 2 times 2 and the fact that 9 can be expressed as 3 times 3. By multiplying these facts, you can calculate 4 times 9 as follows: 4 times 9 equals (2 times 2) times (3 times 3). This can be rearranged to (2 times 3) times (2 times 3), which simplifies to 6 times 6, giving you 36 as the answer.
2*2*2*3=4*2*3=8*3=24
1/4 + 1/4 + 1/4 = 3/4
five quarters 1/2 = 2/4 3/4 + 2/4 = 5/4
4
To calculate (6! \times 2! \times 4! \times 3!), we first find the factorials: (6! = 720) (2! = 2) (4! = 24) (3! = 6) Now, multiplying these together: (720 \times 2 \times 24 \times 6 = 207360). Thus, (6! \times 2! \times 4! \times 3! = 207360).
2 times 2/3 = 4/3