Answer:
Future requirement of water = 115,517 mega-liters
Step-by-step explanation:
Given:
Current requirement of water (C) = 48,000 mega-liters
Increasing rate per year (g) = 5% = 0.05
Number of year (n) = 18 years
Find:
Future requirement of water = ?
Computation:
![Future\ requirement\ of\ water = C(1+g)^n\\\\Future\ requirement\ of\ water = 48,000(1+0.05)^{18}\\\\ Future\ requirement\ of\ water = 48,000(1.05)^{18}\\\\ Future\ requirement\ of\ water = 48,000(2.4)\\\\Future\ requirement\ of\ water = 115,517 (Approx)](https://tex.z-dn.net/?f=Future%5C%20requirement%5C%20of%5C%20water%20%3D%20C%281%2Bg%29%5En%5C%5C%5C%5CFuture%5C%20requirement%5C%20of%5C%20water%20%3D%2048%2C000%281%2B0.05%29%5E%7B18%7D%5C%5C%5C%5C%20Future%5C%20requirement%5C%20of%5C%20water%20%3D%2048%2C000%281.05%29%5E%7B18%7D%5C%5C%5C%5C%20Future%5C%20requirement%5C%20of%5C%20water%20%3D%2048%2C000%282.4%29%5C%5C%5C%5CFuture%5C%20requirement%5C%20of%5C%20water%20%3D%20115%2C517%20%28Approx%29)
Future requirement of water = 115,517 (Approx) mega-liters
Answer: 3/10 and 0.2
Step-by-step explanation:
Answer:
40%
Step-by-step explanation:
26×100=2600÷65=40
40%×65=26
The First two coefficients are positive because they are on the positive side of the y-axis.
The Last two are on the negative side of the y-axis. B is the closest to zero as the wider the graph is, the lower the coefficient is.
The coefficient with the greatest value would be D
12 divided by 3/4 or 12 divided by .75 = 16
You can make 16 crusts!