The following data give the prices of seven textbooks randomly selected from a university bookstore. $93 $173 $107 $125 $56 $163 $144 a. Find the mean for these data. Calculate the deviations of the data values from the mean. Is the sum of these deviations zero? Mean = $ 123 Deviation from the mean for $173 = $ 0 Sum of these deviations = $ -433 b. Calculate the range, variance, and standard deviation. [Round your answers to 2 decimal places.] Range = $ Variance = Standard deviation = $ Click if you would like to Show Work for this question: Open Show Work LINK TO TEXT

Answer:

yes

Step-by-step explanation:

Final answer:

To find the value of the outside temperature, we will convert the Fahrenheit temperature readings to Celsius and use the given information. The outside temperature is approximately 9.5 °C assuming it is constant.

Explanation:

To find the value of the outside temperature, we will solve the problem using the Celsius scale. On the Celsius scale, the freezing point of water is 0 °C and the boiling point is 100 °C. The unit of temperature on this scale is the degree Celsius (°C). We can convert the Fahrenheit temperature readings to Celsius and then find the outside temperature using the given information.

Step 1: Convert the initial temperature from Fahrenheit to Celsius:
Initial temperature = 70 °F = 21.111 °C

Step 2: Convert the temperature after 5 minutes from Fahrenheit to Celsius:
Temperature after 5 minutes = 40 °F = 4.444 °C

Step 3: Calculate the change in temperature:
Change in temperature = (Temperature after 5 minutes - Initial temperature) = (4.444 °C - 21.111 °C) = -16.667 °C

Step 4: Calculate the rate of change of temperature per minute:
Rate of change of temperature per minute = (Change in temperature / 5 minutes) = (-16.667 °C / 5 minutes) = -3.333 °C/minute

Step 5: Calculate the temperature 35 minutes after being taken outside:
New temperature = (Initial temperature + (Rate of change of temperature per minute x 35 minutes)) = (21.111 °C + (-3.333 °C/minute x 35 minutes)) = 9.444 °C

Step 6: Since the thermometer reading 35 minutes later is within one-half degree of the outside temperature, the outside temperature is approximately:

Outside temperature = (New temperature ± 0.5 °C) = (9.444 °C ± 0.5 °C) = 8.944 °C to 9.944 °C

So, assuming the outside temperature is constant, the value of the outside temperature is approximately 9.5 °C.

Learn more about Converting Fahrenheit to Celsius here:

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Answer: 0.036

Work Shown:

6 red, 6+3+7 = 16 total

A = 6/16 = probability of getting red the first time

after you pick 1 red, there's 6-1 = 5 left out of 16-1 = 15 total

B = 5/15 = probability of getting red the second time

then you repeat: 5-1 = 4 red left out of 15-1 = 14 total

C = 4/14 = probability of getting red the third time

B and C are dependent on A, C is dependent on B. This is assuming we do not put any marbles back.

Multiply out the fractions found

A*B*C = (6/16)*(5/15)*(4/14) = 0.0357 which rounds to 0.036 when rounding to the nearest thousandth.

Answer:

The box which minimizes the cost of materials has a square base of side length 4.45cm and a height of 2.22 cm.

Step-by-step explanation:

Volume of the jewellery box=44cm³

The box has a square base and is to be built with silver plated sides and nickel plated top and base.

Therefore: Volume  = Square Base Area X Height = l²h

l²h=44

h=44/l²

Total Surface Area of a Cuboid =2(lb+lh+bh)

Since we have a square base

Total Surface Area =2(l²+lh+lh)

The Total Surface Area of the box =2l²+4lh

Nickel plating costs $1 per cm³

Silver Plating costs $2 per cm³

Since the sides are to be silver plated and the top and bottom nickel plated:

Therefore, Cost of the Material for the jewellery box =1(2l²)+2(4lh)

Cost, C(l,h)=$(2l²+8lh)

Recall earlier that we derived:

h=44/l²

Substituting into the formula for the Total Cost

Cost, C(l)=2l²+8l(44/l²)

C=2l²+352/l

C=(2l³+352)/l

The minimum costs for the material occurs at the point where the derivative equals zero.

C'=(4l³-352)/l²

4l³-352=0

4l³=352

Divide both sides by 4

l³=88

l=4.45cm

Recall:

h=44/l²=44/4.45²=2.22cm

The box which minimizes the cost of materials has a square base of side length 4.45cm and a height of 2.22 cm.

The single-effect measure calculated and reported is called: Summary statistic

The summary statistic is use to derive a more centralized result ( measure of central tendency ) of a group of data contained in a data set. given that all the results of each individual studies are collected to create a larger sample.

The single-effect measure that will be calculated and reported when this larger sample size is re run to capture the true magnitude is termed the summary statistic of the individual studies.

Hence we can conclude that the single-effect measure calculated and reported is called summary statistic

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Answer: Power Analysis

Step-by-step explanation: