A brick laid its greatest dimension horizontal and its face parallel to the wall face called

A)Shiner

B) Plasticity

C) Strength

D) All of the above

Grouting brick or CMU wall serves to

1. Increase the cross sectional area of the wall
2. Resist vertical and lateral shear loads
3. Bonds wythes together

D. All of the above

Create a SQLite Replit that creates a table representing students in a class, including at least name, graduation year, major, and GPA.

Include two queries searching this student data in different ways, for example searching for all students with graduation year of 2021, or all students with GPA above a certain number.

Here is an example you can work from: https://repl.it/@klmec/SQLExample (this is the default example from Replit; you can choose among several other examples when you create a new SQLite Replit).

Apply DMAIC to improve the following at any university.

Course registration.

In an experiment, subjects were asked to mentally imagine the letter 'F'. They were then instructed to mentally move around the letter and make a judgement on each corner. The researchers found that

For this computer assignment, you are to write and implement an interactive C++ program to find and print all prime numbers, which are less than or equal to a given value of n, using the algorithm known as the Sieve of Eratosthenes. A prime number p is an integer greater than 1 that is divisible only by 1 and p (itself). The algorithm begins by initializing a set container to contain all the integers in the range 2 to n. A loop makes multiple passes over the elements in the set, using successive integer key values 2, 3, 4, … Each pass “shakes free” nonprime numbers and lets them “filter through the sieve.” At the end, only the prime numbers remain. Begin with the integer m = 2, which is the smallest prime number. The pass scans the set and removes all multiples of 2, having the form 2 * k for k >= 2. The multiples cannot be prime numbers, because they are divisible by 2. At the end of the pass, we have removed all even numbers except 2. Next, look at the integer m = 3, which is a prime number. As with value 2, remove all multiples of 3, having the form 3 * k for k >= 3. The multiples 12, 18, and so forth, are even numbers, so they have already been removed from the set. The next key integer is m = 4, which is no longer in the set, because it was removed as a multiple of 2. The pass takes no action. The process continues until it removes all multiples of prime numbers. In other words, for integer m, remove all multiples of m, having the form m * k for k >= m.

The numbers that remain in the sieve are the prime numbers in the range 2 to n. The algorithm uses an optimization feature by looking at the key values for m <= sqrt ( n ). However, in your implementation, test all numbers m such that m * m <= n, rather than computing the square root of n.

Programming Notes:

1. Use a set container to store the prime numbers. In the STL, a set is implemented as an associative container, it uses the model of a mathematical set, it stores keys that are objects of a specified data type, where duplicate keys are not allowed. To use a set in your program, you need to insert the statement: #include in your header file.

2. In addition to the main ( ) routine, implement (at least) the following two subroutines in your program: • void sieve ( set < int >& s, int n ): This routine can be used to apply the Sieve of Eratosthenes algorithm to remove all nonprime numbers from the integer set s = { 2, 3, …, n }. • void print_primes ( const set < int >& s ): This routine can be used to print the elements in the integer set s (NO_ITEMS = 16 primes per line and ITEM_W = 4 spaces allocated for each prime). Sieve of Eratosthenes 2

3. The main ( ) routine creates an empty set of integers and prompts the user for an upper limit and calls the subroutine sieve ( ) to execute the Sieve of Eratosthenes. It calls the subroutine print_primes ( ) to print the prime numbers on stdout.

4. Include your header file prog3.h, by inserting the statement: #include “prog3.h” at the top of your source file prog3.cc.

ALSO PLEASE ATTACH AN HEADER FILE

An exercise science major wants to try to use body weight to predict how much someone can bench press. He collects the data shown below on 30 male students. Both quantities are measured in pounds.

b) Compute a 95% confidence interval for the average bench press of 150 pound males. What is the lower limit? Give your answer to two decimal places.  

c) Compute a 95% confidence interval for the average bench press of 150 pound males. What is the upper limit? Give your answer to two decimal places.  

d) Compute a 95% prediction interval for the bench press of a 150 pound male. What is the lower limit? Give your answer to two decimal places.  

e) Compute a 95% prediction interval for the bench press of a 150 pound male. What is the upper limit? Give your answer to two decimal places.  

The goal of this assignment is to write five short Java/Pyhton programs to gain practice with expressions, loops and conditionals.

1. Boolean and integer variables and Conditionals.

Write a program Ordered.java that reads in three integer command-line arguments, x, y, and z.   Define a boolean variable isOrdered whose value is true if the three values are either in strictly ascending order  (x < y < z) or in strictly descending order  (x > y > z), and false otherwise.

Print out the variable isOrdered using System.out.println(isOrdered).

% java Ordered 10 17 49

true

% java Ordered 49 17 10

true

% java Ordered 10 49 17

false

2. Type conversion. There are a number of different formats for representing color.  RGB format specifies the level of red (R), green (G), and blue (B) on an integer scale from 0 to 255:

It is the primary format for LCD displays, digital cameras, and web pages. CMYK format specifies the level of cyan (C), magenta (M), yellow (Y), and black (K) on a real scale of 0.0 to 1.0:

It is the primary format for publishing books and magazines.

Write a program RGBtoCMYK.java that reads in three integers red, green, and blue from the command line and prints out equivalent CMYK parameters. The mathematical formulas for converting from RGB to an equivalent CMYK color are:

Hint.   Math.max(x, y) returns the maximum of x and y.

        % java RGBtoCMYK 75 0 130       // indigo

cyan    = 0.423076923076923

magenta = 1.0

yellow  = 0.0

black   = 0.4901960784313726

If all three red, green, and blue values are 0, the resulting color is black (0 0 0 1).

Packaging Solutions Corporation manufactures and sells a wide variety of packaging products. Performance reports are prepared monthly for each department. The planning budget and flexible budget for the Production Department are based on the following formulas, where q is the number of labor-hours worked in a month:

Trecek Corporation incurs research and development costs of $685,000 in 2017, 30 percent of which relate to development activities subsequent to IAS 38 criteria having been met that indicate an intangible asset has been created. The newly developed product is brought to market in January 2018 and is expected to generate sales revenue for 10 years.

Assume that a U.S.–based company is issuing securities to foreign investors who require financial statements prepared in accordance with IFRS. Thus, adjustments to convert from U.S. GAAP to IFRS must be made. Ignore income taxes.

Required:

1. Prepare journal entries for research and development costs for the years ending December 31, 2017, and December 31, 2018, under (1) U.S. GAAP and (2) IFRS.

2. Prepare the entry(ies) that Trecek would make on the December 31, 2017, and December 31, 2018, conversion worksheets to convert U.S. GAAP balances to IFRS.

Question #1

A bakery's use of corn sweetener is normally distributed with a mean of 80 gallons per day and a standard deviation of four gallons per day. Lead time for delivery of the corn sweetener is normal, with a mean of six days and a standard deviation of two days. If the manager wants a service level of 99 percent, calculate the following: [Note: for a 99% service level the appropriate z value is 2.33] Equations:

1. Assuming demand is constant at 80 gallons per day and lead time is variable as indicated above, what would the reorder point be?

2. Assuming lead time is constant at six days and demand is variable as indicated above, what would the reorder point be?

3. The supply chain manager for this bakery is considering two options to improve performance. Option #1 is marketing effort to gain new customers that will stabilize demand. Options #2 is a long term contract with the supplier which will guarantee delivery lead times. Which option would you recommend and why?

Here are the abbreviated financial statements for Planner’s Peanuts:

Assets are proportional to sales. If the dividend payout ratio is fixed at 50%, calculate the required total external financing for growth rates in 2020 of (a) 20%, (b) 25%, and (c) 30%. (Do not round intermediate calculations. Round your answers to 2 decimal places.)

Is it ethical for governments to write malware to fight their enemies? What impact can it have on civilians?

what are some of the challenges faced by MNCs in their global compensation practices?

• Requirement 1—All users in the csmtech.local forest should be authenticated to all resources in the csmasia. local forest.
• Requirement 2—Selected users in the csmasia.local domains should be authenticated to selected resources in the csmtech.local forest.
• Requirement 3—No users in the csmchina.local domain tree should be authenticated to the csmtech.local forest.
• Requirement 4—Users in the bj.csmchina.local domain access resources in the phx.usa.csmtech.local domain frequently. Latency should be kept to a minimum.
• Requirement 5—Users in the phx.usa.csmtech.local domain access resources in the gb.uk.csmtech.local domain frequently. Latency should be kept to a minimum.
• Requirement 6—Users in the Linux network need to access resources in the csmasia.local forest frequently.

Given the preceding requirements, write a report describing how to configure trust relationships and listing configuration options, such as one way or two way, transitivity, authentication, and so forth.

Java programming language

Write a Java application that simulates a test. The test contains at least five questions. Each question should be a multiple-choice question with 4 options.
Design a QuestionBank class. Use programmer-defined methods to implement your solution. For example:
- create a method to simulate the questions – simulateQuestion
- create a method to check the answer – checkAnswer
- create a method to display a random message for the user – generateMessage
- create a method to interact with the user - inputAnswer
Use a loop to show all the questions.
For each question:
- If the user finds the right answer, display a random congratulatory message (“Excellent!”, ”Good!”, ”Keep up the good work!”, or “Nice work!”).
- If the user responds incorrectly, display an appropriate message and the correct answer (“No. Please try again”, “Wrong. Try once more”, “Don't give up!”, “No. Keep trying..”).
- Use random-number generation to choose a number from 1 to 4 that will be used to select an appropriate response to each answer.
- Use a switch statement to issue the responses, as in the following code:
switch ( randomObject.nextInt( 4 ) )
{
case 0:
return( "Very good!" );
……
}
At the end of the test display the number of correct and incorrect answers, and the percentage of the correct answers.
Your main class will simply create a QuestionBank object ( in the driver class – QuestionBankTest.java) and start the test by calling inputAnswer method.