This problem really should have the image attached, as we are not quite sure what the radius of the cone is, nor are we sure about how deeply the cone-shaped hole is bored into the cube. When I did this, I just assumed that the radius of the cone was half the length of the cube which is 3.5, and I assumed that the height of the cone was the same as the height of the cube which is 7. So the volume for the cube itself is 7*7*7=343. Now we have to subtract from that the volume of the cube, which has a formula of
If we fill in those values I'm assuming to be accurate, our formula then looks like this:
which equals 89.752 If we subtract the volume of the cone from the volume of the cube, we will get that volume of what's left is
Answer:
There are 24 total outcomes.
Step-by-step explanation:
First, calculate the probabilities. Assuming this die is six-sided.
Probabilty of rolling a number on the wheel: 1/4, 4 total possibilities.
Probability of rolling a number on the die: 1/6, 6 total possibilities.
(1/4) * (1/6) = (1/24)
This shows 24 total outcomes. For extra understanding, this is shown below.
Spinner 2, Die 1
Spinner 2, Die 2
Spinner 2, Die 3
Spinner 2, Die 4
Spinner 2, Die 5
Spinner 2, Die 6
Repeat this for spinner 3, 4, and 5. This shows 6 * 4 or 24 total outcomes.
Answer 5 by 6
Step-by-step explanation:
Answer:
The area of the parallelogram is 29 square units.