Answer:
5
Step-by-step explanation:
there are five flat surfaces, if you could set a plate on it and eat, it's a flat surface
Answer:
80 pounds.
Step-by-step explanation:
Let W₁ be the initial weight of water in the grapefruit, W₂ be the weight of water in the grapefruit after evaporation, and M be the total weight of the grapefruit after evaporation. Assuming that, originally, the grapefruit weighed 100 pounds with a 92% water content and the weight of the "non-water" part of the fruit (100 - W₁) does not change. The final weight of the grapefruit (M) is given by:
![W_1=0.92*100=92\\W_2=0.90*M\\W_2+(100-W_1) = M\\W_2=M-8\\(1-0.9)M=8\\M=80](https://tex.z-dn.net/?f=W_1%3D0.92%2A100%3D92%5C%5CW_2%3D0.90%2AM%5C%5CW_2%2B%28100-W_1%29%20%3D%20M%5C%5CW_2%3DM-8%5C%5C%281-0.9%29M%3D8%5C%5CM%3D80)
The grapefruit now weighs 80 pounds.
Short Answer D
Proof
F = 9/5*C + 32 Begin by subtracting 32 from both sides.
F - 32 = 9/5 C Put brackets around the 2 terms on the left.
(F - 32) = 9/5 C Multiply by 5/9 on both sides.
(5/9) * (F - 32) = 5/9 * 9/5 * C
(5/9) * (F - 32) = C
The last one is the answer.
ANSWER: No Solution
You didn’t mention how you needed it solved but solving this by substitution or solving this for a both give you the same answer. No solution.
The value is 87 degrees since it is on the opposite side of the rhombus