Answer:
77) YES , 78) YES , 79) NO , 80) YES
Step-by-step explanation:
77) 12/4=3 and 18/6=3 so YES
78) 30/6=5 and 40/8=5 so YES
79) 36/25=1.44 and 48/40=1.2 so NO
80) 15/5=3 and 13.8/4.6=3 so YES
Well all you do is times 25,15, and 10
Answer: You would tell him 1,425ft².
Step-by-step explanation:
f
First, you need to know the equation for finding the area of a trapezoid, which is <em><u>½</u></em><em><u>h</u></em><em><u>(</u></em><em><u>b1</u></em><em><u>+</u></em><em><u>b2</u></em><em><u>)</u></em> .
When you plug in all the number you have into the equation, you have a new equation essentially that says, <em><u>½×30(65+50)</u></em> .
When you start solving the equation, you need to do parentheses first, so <em><u>65+30</u></em>, which would get you 95. This would then turn the equation into <em><u>½×30(95)</u></em> .
Next, you have to do <em><u>30×95</u></em>, which would come out to be 2850. When you do this, your equation would now be <em><u>½</u></em><em><u>×</u></em><em><u>2</u></em><em><u>8</u></em><em><u>5</u></em><em><u>0</u></em> , or essentially <em><u>2850</u></em><em><u>÷</u></em><em><u>2</u></em> .
When you do the last and final step of the problem, which is <em><u>½×2850</u></em>, you would get 1425. But since it's area, your answer would <em><u>1425ft²</u></em>.
Answer:
The mean of sample (21.6) is greater than population mean and the standard deviation of sample (8.4) is also greater than population standard deviation.
Both values, mean and std are greater than corresponding population values. This means, that our sample overestimates or is skewed to the right in the values of population. Also each specific value is farther apart from the mean so variation is much bigger in our sample than in our population.
Step-by-step explanation:
To calculate the mean, we estimate the avergage of the data as
Mean = Sum(data)/n
Where n is the number of observations of sample. We have;
(25 + 32 + 16 + 12 + 11 + 38 + 22 + 21 + 19 + 20)/10 = 21.6
The standard deviation is the square root of variance. Variance is sum of the deviation of each data point to the sample mean.
Variance = sum i= 1 to n (Xi-xmean)/(n-1)
Where n = 10 the # of observations and xi is each specific data point.
If you calculate it in Excel or or by hand you obtain:
Variance = sum i= 1 to n (Xi-21.6)/(10-1) = 8.4
Both values, mean and std are greater than corresponding population values. This means, that our sample overestimates or is skewed to the right in the values of population. Also each specific value is farther apart from the mean so variation is much bigger in our sample than in our population.
Answer:
The estimated solution is N = 12.
Step-by-step explanation:
1) Round the equation to .
2) Get the N on one side, and the values on the other side. To do this, add 6 to both sides. You end up with .
3) N = 12 is therefore the answer.
Hope this helps! Feel free to give me Brainliest if you feel this helped. If you need any more clarification just comment below. Have a good day. :)