Create an application that calculates mph or (Miles Per Hour). There should be 2 textboxes for input, and 2 labels to label the input textboxes. The first textbox should be the miles driven. And the other textbox should be hours taken.

There should be a button to calculate miles per hour. And a label or textbox for the results of the calculate.

1textbox for miles [input]

2textbox for hours (time used) [input]

3label for miles textbox

4label for hours textbox

button for calculate mph [to start program]

label or textbox to get results [output]

NEED CS FILE PLS

any have SWOT for shangrila hotel?

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WHAT IS A LUXURY HOTEL? WHY DO THEY CHARGE A HIGHER PRICE THAN OTHER HOTELS? WHY DO CUSTOMERS PAY THIS HIGHER PRICE? WHAT IS YOUR EXPERIENCE OF A LUXURY HOTEL? DISCUSS WITH REAL LIFE EXAMPLES

WRITE AN ESSAY OF 500 - 1000 IN YOUR WORDS COVERING ALL THESE QUESTIONS AND POST YOUR ANSWER DIRECTLY ON SCHOOLOGY, THANK YOU.

A shipment of 6 television sets contains 2 defective sets. A hotel makes a random purchase of 3 of the sets. If x is the number of defective sets purchased by the hotel, find the cumulative distribution function of the random variable X representing the number of defective. Then using F(x), find

(a)P(X= 1) ;

(b)P(0< X≤2).

1-If you were the manager of a luxury hotel with 300 rooms and different types of restaurants, what functionalities would you want from the PMS? Give examples for the integration between the PMS and three other IT systems.

2-Give examples of other channels that you will use to sell the hotel and how the PMS will help you to manage those channels?

A car manufacturer claims that the miles per gallon (mpg) of all its midsize cars can be modeled with a normal model with N(33, 1.70).

1. What proportion of cars have miles per gallon less than 31.2 [P(x ≤31.2 mpg)]?

2. What proportion of cars will have miles per gallon greater than 36 [P(x ≥36 mpg)]?

3. What proportion of cars will have miles per gallon less than 30[P(x ≤30 mpg)]?

4. What proportion of cars will have miles per gallon between 32 and 35 [P(32 mpg ≤x ≤35 mpg)]?

5. How many miles per gallon do the top 10% of the midsize cars have?

Speeding on the I-5. Suppose the distribution of passenger vehicle speeds traveling on the Interstate 5 Freeway (I-5) in California is nearly normal with a mean of 70.4 miles/hour and a standard deviation of 4.5 miles/hour. Round all answers to four decimal places.

1. What proportion of passenger vehicles travel slower than 80 miles/hour?

2. What proportion of passenger vehicles travel between 73 and 79 miles/hour?

3. How fast do the fastest 8% of passenger vehicles travel?  miles/hour

4. Suppose the speed limit on this stretch of the I-5 is 70 miles/hour. Approximately what proportion of the passenger vehicles travel above the speed limit on this stretch of the I-5?

Make a numerical and graphical summary of the data, commenting on any features that you find interesting. Limit the output you present to a quality that a busy reader would find sufficient to get a basic understanding of the data. PLEASE SHOW ME HOW TO USE R TO SOLVE THIS.

race - racial composition in percent minority

fire - fires per 100 housing units

theft - theft per 1000 population

age - percent of housing units built before 1939

volact - new homeowner policies plus renewals minus cancellations and non renewals per 100 housing units

involact - new FAIR plan policies and renewals per 100 housing units

income - median family income

Note that first column of the data set is ZIP code in Chicago

race fire theft age volact involact income
60626 10.0 6.2 29 60.4 5.3 0.0 11744
60640 22.2 9.5 44 76.5 3.1 0.1 9323
60613 19.6 10.5 36 73.5 4.8 1.2 9948
60657 17.3 7.7 37 66.9 5.7 0.5 10656
60614 24.5 8.6 53 81.4 5.9 0.7 9730
60610 54.0 34.1 68 52.6 4.0 0.3 8231
60611 4.9 11.0 75 42.6 7.9 0.0 21480
60625 7.1 6.9 18 78.5 6.9 0.0 11104
60618 5.3 7.3 31 90.1 7.6 0.4 10694
60647 21.5 15.1 25 89.8 3.1 1.1 9631
60622 43.1 29.1 34 82.7 1.3 1.9 7995
60631 1.1 2.2 14 40.2 14.3 0.0 13722
60646 1.0 5.7 11 27.9 12.1 0.0 16250
60656 1.7 2.0 11 7.7 10.9 0.0 13686
60630 1.6 2.5 22 63.8 10.7 0.0 12405
60634 1.5 3.0 17 51.2 13.8 0.0 12198
60641 1.8 5.4 27 85.1 8.9 0.0 11600
60635 1.0 2.2 9 44.4 11.5 0.0 12765
60639 2.5 7.2 29 84.2 8.5 0.2 11084
60651 13.4 15.1 30 89.8 5.2 0.8 10510
60644 59.8 16.5 40 72.7 2.7 0.8 9784
60624 94.4 18.4 32 72.9 1.2 1.8 7342
60612 86.2 36.2 41 63.1 0.8 1.8 6565
60607 50.2 39.7 147 83.0 5.2 0.9 7459
60623 74.2 18.5 22 78.3 1.8 1.9 8014
60608 55.5 23.3 29 79.0 2.1 1.5 8177
60616 62.3 12.2 46 48.0 3.4 0.6 8212
60632 4.4 5.6 23 71.5 8.0 0.3 11230
60609 46.2 21.8 4 73.1 2.6 1.3 8330
60653 99.7 21.6 31 65.0 0.5 0.9 5583
60615 73.5 9.0 39 75.4 2.7 0.4 8564
60638 10.7 3.6 15 20.8 9.1 0.0 12102
60629 1.5 5.0 32 61.8 11.6 0.0 11876
60636 48.8 28.6 27 78.1 4.0 1.4 9742
60621 98.9 17.4 32 68.6 1.7 2.2 7520
60637 90.6 11.3 34 73.4 1.9 0.8 7388
60652 1.4 3.4 17 2.0 12.9 0.0 13842
60620 71.2 11.9 46 57.0 4.8 0.9 11040
60619 94.1 10.5 42 55.9 6.6 0.9 10332
60649 66.1 10.7 43 67.5 3.1 0.4 10908
60617 36.4 10.8 34 58.0 7.8 0.9 11156
60655 1.0 4.8 19 15.2 13.0 0.0 13323
60643 42.5 10.4 25 40.8 10.2 0.5 12960
60628 35.1 15.6 28 57.8 7.5 1.0 11260
60627 47.4 7.0 3 11.4 7.7 0.2 10080
60633 34.0 7.1 23 49.2 11.6 0.3 11428
60645 3.1 4.9 27 46.6 10.9 0.0 13731