Answer:
The answer is "Worm"
Explanation:
Worm is a kind of malware, which primarily infects certain machines whereas remaining on compromised devices. It replicates the malware, which itself to uninfected by computers, and certain options were wrong which can be defined as follows:
In option a, It specifically targets the android devices. In option b, It is intended to cover up other processes. In option d, It is used in unauthorized remote access.The ______ network became functional in 1969, linking scientific and academic researchers across the United States. Group of answer choices ARPANET NETAMERICA INTRANET AMERINET
Answer:
The ARPANET network became functional in 1969, linking scientific and academic researchers across the United States.
Explanation:
ARPA Net is the network that has become functional in 1969 in united States. The basic purpose of this network is to link all the researchers and scientists across united states. The full form of ARPANet is Advanced Research Project Agency Network.
The importance of this network is increase because small chunks of data that are called packets has been proposed for data transmission in the network. The data is divided into small packets and send it over the network, at destination point these packets are combined together and become orignal information.
g The machine in the problem has a byte-addressable memory of 216 bytes. The direct-mapped cache consists of 32 cache blocks, and the cache block size is 8 bytes. Question 1 How is the 16-bit memory address divided into byte offset, cache index, and tag? Question 2 What is the capacity of the cache in bytes? Question 3 Why tag is also stored in the cache? Question 4 For the following four memory addresses, what cache block would each be mapped to? 0001 0001 0001 1011 1100 0011 0011 0100 1101 0000 0001 1101 1010 1010 1010 1010
Final answer:
The 16-bit memory address is divided into 3 bits for byte offset, 5 bits for cache index, and 8 bits for tag. The direct-mapped cache has a capacity of 256 bytes. Tags in the cache help in verifying the data's integrity for proper retrieval, and the specific block each address maps to has been calculated based on the cache index.
Explanation:
Direct-Mapped Cache Addressing
To answer your questions regarding the direct-mapped cache and addressing, we must first divide the 16-bit memory address into three parts: byte offset, cache index, and tag.
Question 1: The memory address is divided as follows:
Byte offset (needed to select one byte from the 8-byte cache block): 3 bits
Cache index (to select one cache block from the 32 blocks): 5 bits
Tag (remaining bits after removing index and offset): 8 bits
Question 2: The capacity of the cache is the product of the number of cache blocks and the size of each block, which is 32 blocks × 8 bytes/block = 256 bytes.
Question 3: The tag is stored in the cache to identify which block of memory is currently stored in a cache line. It ensures the correct data is retrieved.
For the given memory addresses, the cache block they would be mapped to is as follows:
0001 0001 0001 1011 - Cache Block: 3
1100 0011 0011 0100 - Cache Block: 20
1101 0000 0001 1101 - Cache Block: 29
1010 1010 1010 1010 - Cache Block: 10
Note that we are using block numbers starting from 0.
Choose two prime numbers p and q (these are your inputs). Suppose that you need to send a message to your friend, and you implement the RSA algorithm for secure key generation. You need public and private keys (these are your outputs). You are free to choose other parameters or inputs if you need any. Write a program for the RSA algorithm using any programing language you know (such as C++) to generate your public and private key.
Answer:
#include <iostream>
#include<math.h>
using namespace std;
int findGcd(int x, int y) {
int t;
while(1) {
t= x%y;
if(t==0)
return y;
x = y;
y= t;
}
}
int main() {
int v1,v2,p,q,flag = 0;
cout<<"Please enter 1st prime number: ";
cin>>p;
v1 = p/2;
cout<<"Please enter 2nd prime number: ";
cin>>q;
v2 = q/2;
for(int i = 2; i <= v1; i++)
{
if(p%i == 0)
{
cout<<"The number is not prime";
flag = 1;
return 0 ;
}
}
for(int i = 2; i <= v1; i++)
{
if(q%i == 0)
{
cout<<"You entered a number which is not prime";
flag = 1;
return 0;
}
}
double n=p*q;
double tr;
double phi= (p-1)*(q-1);
double e=7;
if( flag == 0)
{
while(e<phi) {
tr = findGcd(e,phi);
if(tr==1)
break;
else
e++;
}
cout<<"public key: "<<e<<endl;
double d1=1/e;
double d=fmod(d1,phi);
cout<<"private key: "<<d<<endl;
double message;
cout<<"please enter a message: ";
cin>>message;
double cipher = pow(message,e);
double m = pow(cipher,d);
cipher = fmod(cipher,n);
m = fmod(m,n);
cout<<"Encrypted message: "<<cipher;
}
}
Explanation:
Find n = p*q and calculate phi = (p-1) * (q-1). Select a number e such that 1 < e < phi(n) and findGcd(e, phi(n)) = 1. Find d which is private key as d = e−1 (mod phi(n)).As m is original message so encrypt using, cipher = m*e mod n.Write a Python program to: ask the user to enter the price of an item. Note: use a while loop to check the validity of the price and, if the user enters a price less than or equal to zero, to prompt for a valid price. Prompt the user for the quantity being purchased. If the quantity is ten or greater, apply a discount of 5 percent. (.95*price*quantity).
Answer:
Hi there Tonyhh! Please find the implementation below.
Explanation:
You can save the below code in a file called "price_discount.py". The code is implemented in python 2.0+. To make it work in Python 3.0+, simply update the code to use "input" rather than "raw_input".
price_discount.py
def calculate_discount(price, quantity):
total = 0.95 * price * quantity;
return total;
price = raw_input("Enter a price: ");
try:
price = int(price);
while price <= 0:
print("Input a valid number: ")
price = raw_input("Enter a price: ");
quantity = raw_input("Enter a quantity: ");
try:
quantity = int(quantity);
if quantity >= 10:
print(calculate_discount(price, quantity));
except ValueError:
print("Invalid quantity!")
except ValueError:
print("Invalid input!");
price = -1;
Design the logic and write the Java code that will use assignment statements to: Calculate the profit (profit) as the retail price minus the wholesale price Calculate the sale price (salePrice) as 25 percent deducted from the retail price Calculate the sale profit (saleProfit) as the sale price minus the wholesale price.
Answer:
Logic:
profit = retailPrice - wholeSalePrice
salePrice = retailPrice - (0.25 * retailPrice)
saleProfit = salePrice - wholeSalePrice
Java code:
double retailPrice, wholeSalePrice;
double profit = retailPrice - wholeSalePrice;
double salePrice = retailPrice - (0.25 * retailPrice);
double saleProfit = salePrice - wholeSalePrice;
Explanation:
The logic just represented the words in equation format. That is, profit is retailPrice minus wholesaleprice.
SalePrice is 25% deducted from retail price.
SaleProfit is saleprice minus wholesaleprice.
The whole logic is then represented in Java assignment statement using type double.
When your phone sends/receives text messages (specifically using SMS), the total data sent/received contains more than just your 160-character message. What is an example of this additional data, and why is it included
An SMS is a short code that is used by businesses to opt in consumers to their SMS programs, and then used to send text message coupons, offers, promotions to those customers that had previously opted.
Explanation:
When Someone tries to call you, the tower sends your phone a message over the control channel that tells your phone to play its ringtone. The tower gives your phone a pair of voice channel frequencies to use for the call.
The MMS and other data driven services works on the fundamental voice network and is based on the big three GSM, CDMA and TDMA network technologies. The SMS allows text messages of 160 characters (letters, numbers and symbols).
The text messaging is an act of composing and sending electronic messages consist of alphabetic and numeric character between two or more more mobile devices.
SMS stands for short messaging service, it refers to a protocol that is used for sending short messages over wireless networks.
SMS works on the fundamental principle voice network, and is based on the three big technologies (i.e. GSM, CDMA and TDMA) which makes it a universal service.
Explanation:
Data SMS messages are sent through the data network, using the 2G / 3G/4G data connection.
A perfect example for data SMS use is when your recipient has pay to receive the text message even though they may have unlimited texting. By using a data SMS service, all extra charges are avoided and the amount of data used by SMS messages is insignificant compared to even lite web page viewing.
Data SMS messages are sent not only through the data network (over your 2G / 3G data connection), but also through GSM as Text SMS.
The PDU of a text message has a User Data Headers (UDH) that defines a specific port on a handset
Using the following code, answer the following questions
1. #pragma omp parallel
2.{
3. id-omp-get thread num();
4. numThreads- omp_get num threads0
5, printf("Hello from thread %d of %din", id, numThreads);
6.}
a. What is the output of the above program in PI 3 B+? .
b. What does the statement at line 1 mean?
c. How to compile the following code (executable should not be /a out)?
d. What does the statement at line 4 (after the equal sign) mean?
Answer:
Answer explained
Explanation:
as PI 3 B+ is quadcore processor(i.e. 4 cores)
omp_get_thread_num() is used for getting thread number.(i.e. 0,1,2,3)
omp_get_num_threads() is used for getting number of threads.(i.e. 4)
1. Output should be,
Hello from thread 0 of 4
Hello from thread 1 of 4
Hello from thread 2 of 4
Hello from thread 3 of 4
2. #pragma omp parallel is used to fork(create child) additional threads to carry out the work enclosed in the construct in parallel.
3. We can Compile this code using,
gcc -o omp_helloc -fopenmp hello.c
4. We can Run this code using,
./hello
5.omp_get_num_threads() is used for getting number of threads.(i.e. 4)
Write a function called name_facts that will take a firstname (string) as an input parameter, and print out various facts about the name, including:
1) its length, 2) whether it starts with the letter A, and 3) whether it contains a Z or X.
To gain full credit for this exercise, you must use string formatting to print out the result. Hints: You will probably want to convert the string to lowercase when checking conditions 2 and 3. You can get by without it, but you'll have to make sure you check both lower and uppercase versions of the letters. You will have to use the in operator for condition 3. You will also probably want to make a separate message for conditions 2 and 3 (depending on the answer) and use string formatting to join them into the final message.
Answer:
def name_facts(firstname):
print("Your name is",len(firstname),"letters long",end=", ")
if(firstname[0] == 'A'):
print("does start with the letter A",end=", ")
else:
print("does not start with the letter A", end=", ")
if(firstname.count('Z')>0 or firstname.count('X')>0):
print("and does not contain a Z or X")
else:
print("and does not contain a Z or X")
#Testing
name_facts("Allegra")
name_facts("Xander")
Explanation:
Answer:
// Comments are used for explanatory purpose
// Program starts here
#include<iostream>
using namespace std;
int main()
{
// Declare firstname
string firstname;
//Prompt to enter firstname
cout<<"What's your first name: ";
// Accept input
cin>>firstname;
// A. Get string's length
int length = firstname.length();
// Print length
cout<<"Length = "<<length<<endl;
// Copy string to chat array
char char_array[length + 1];
// copying the contents of the string to char array
strcpy(char_array, firstname.c_str());
// B. Check if it starts with letter A
if(char_array[0] == 'A')
{
cout<<"Your Firstname begins with letter A"<<endl;
}
else
{
cout<<"Your Firstname doesn't begin with letter A"<<endl;
}
// Check if it contains X or Z
int k = 0;
for (int i = 0; i < n; i++) {
if(char_array[i] == 'Z' || char_array[i] == 'X')
{
k++;
}
if(k == 0)
{cout<<"Your Firstname doesn't contain Z or X";}
else
{cout<<"Your Firstname contains Z or X";}
}
return 0;
}
Craig likes to work on his computer at his local coffee shop, but people around him may be able to see what he is doing, including entering passwords for his accounts. This method of gaining confidential information is referred to as ________.
(A) phishing
(B) shoulder surfing
(C) man-in-the-middle attacks
(D) spear phishing
Answer:
B
Explanation:
Craig could of left the coffee shop but instead he could just shoulder surfing so no one could see all the other options are just plain Wrong shoulder surfing can do no harm
Design a Geometry class with the following methods: A static method that accepts the radius of a circle and returns the area of the circle. Use the following formula: A r e a = π r 2 Use Math.PI for π and the radius of the circle for r. A static method that accepts the length and width of a rectangle and returns the area of the rectangle. Use the following formula: A r e a = L e n g t h × W i d t h A static method that accepts the length of a triangle’s base and the triangle’s height. The method should return the area of the triangle. Use the following formula: A r e a = B a s e × H e i g h t × 0.5 The methods should display an error message if negative values are used for the circle’s radius, the rectangle’s length or width, or the triangle’s base or height. Next, write a program to test the class, which displays the following menu and responds to the user’s selection: Geometry Calculator 1. Calculate the Area of a Circle 2. Calculate the Area of a Rectangle 3. Calculate the Area of a Triangle 4. Quit Enter your choice (1-4): Display an error message if the user enters a number outside the range of 1 through 4 when selecting an item from the menu.
Answer:
Geometry class
public static class Geometry {
public static double areaOfCircle(double radius) {
return Math.PI * radius * radius;
}
public static double areaOfRectangle(double length, double width) {
return length * width;
}
public static double areaOfTriangle(double base, double h) {
return base * h * 0.5;
}
}
Main and user menu choice method\
public static void main(String[] args) {
int choice; // The user's menu choice
do {
// Get the user's menu choice.
choice = getMenu();
if (choice == 1) {
calculateCircleArea();
} else if (choice == 2) {
calculateRectangleArea();
} else if (choice == 3) {
calculateTriangleArea();
} else if (choice == 4) {
System.out.println("Thanks for calculating!");
}
} while (choice != 4);
}
public static int getMenu() {
int userChoice;
// keyboard input
Scanner keyboard = new Scanner(System.in);
// Display the menu.
System.out.println("Geometry Calculator\n");
System.out.println("1. Calculate the Area of a Circle");
System.out.println("2. Calculate the Area of a Rectangle");
System.out.println("3. Calculate the Area of a Triangle");
System.out.println("4. Quit\n");
System.out.print("Enter your choice (1-4) : ");
// get input from user
userChoice = keyboard.nextInt();
// validate input
while (userChoice < 1 || userChoice > 4) {
System.out.print("Please enter a valid range: 1, 2, 3, or 4: ");
userChoice = keyboard.nextInt();
}
return userChoice;
}
Calculate Circle Area
public static void calculateCircleArea() {
double radius;
// Get input from user
Scanner keyboard = new Scanner(System.in);
System.out.print("What is the circle's radius? ");
radius = keyboard.nextDouble();
// Display output
System.out.println("The circle's area is "
+ Geometry.areaOfCircle(radius));
}
Calculate Rectangle Area
public static void calculateRectangleArea() {
double length;
double width;
// Get input from user
Scanner keyboard = new Scanner(System.in);
// Get length
System.out.print("Enter length? ");
length = keyboard.nextDouble();
// Get width
System.out.print("Enter width? ");
width = keyboard.nextDouble();
// Display output
System.out.println("The rectangle's area is "
+ Geometry.areaOfRectangle(length, width));
}
Calculate Triangle Area
public static void calculateTriangleArea() {
double base;
double height;
// Get input from user
Scanner keyboard = new Scanner(System.in);
// Get the base
System.out.print("Enter length of the triangle's base? ");
base = keyboard.nextDouble();
// Get the height
System.out.print("Enter triangle's height? ");
height = keyboard.nextDouble();
// Display the triangle's area.
System.out.println("The triangle's area is "
+ Geometry.areaOfTriangle(base, height));
}
Output
Geometry Calculator
1. Calculate the Area of a Circle
2. Calculate the Area of a Rectangle
3. Calculate the Area of a Triangle
4. Quit
Enter your choice (1-4) : 1
What is the circle's radius? 10
The circle's area is 314.1592653589793
Geometry Calculator
1. Calculate the Area of a Circle
2. Calculate the Area of a Rectangle
3. Calculate the Area of a Triangle
4. Quit
Enter your choice (1-4) : 2
Enter length? 10
Enter width? 10
The rectangle's area is 100.0
Geometry Calculator
1. Calculate the Area of a Circle
2. Calculate the Area of a Rectangle
3. Calculate the Area of a Triangle
4. Quit
Enter your choice (1-4) : 3
Enter length of the triangle's base? 10
Enter triangle's height? 10
The triangle's area is 50.0
Geometry Calculator
1. Calculate the Area of a Circle
2. Calculate the Area of a Rectangle
3. Calculate the Area of a Triangle
4. Quit
Enter your choice (1-4) : 4
Thanks for calculating!
Final answer:
A Geometry class can be designed with static methods to calculate the areas of circles, rectangles, and triangles, ensuring input validation. A test program will provide a user-friendly menu to select different area calculations or to quit, with error handling for out-of-range selections.
Explanation:
Designing a Geometry Class with Area Calculation Methods:
To create a Geometry class with different area calculation methods, we'll define several static methods. Each of these methods will perform a check to ensure that the input values are positive before proceeding with the calculation.
Circle Area Calculation:
To calculate the area of a circle, we use the formula πr2. The static method will take the radius as a parameter and return the calculated area, making use of Math.PI for π. If the radius is negative, an error message will be displayed.
Rectangle Area Calculation:
For calculating the area of a rectangle, the method will accept the length and width. The area is found by multiplying the length by the width. Again, if negative values are provided, an error message will be returned.
Triangle Area Calculation:
The area of a triangle is calculated by taking the base and the height, multiplying them together, and then multiplying by 0.5. This method also ensures that input values are positive before calculating the area.
Testing the Geometry Class:
To test the Geometry class, a program with a menu offering options to calculate the area of a circle, a rectangle, or a triangle will be created. If the user selects an option outside the range of 1 to 4, an error message is displayed. This ensures that the program is user-friendly and provides appropriate prompts and feedback.
convert the following c code to mips. assume the address of base array is associated with $s0, n is associated with $s1, position is associated with $t0, c is associated with $t1, d is associated with $t2, and swap is associated with $t3 for (c
Answer:
Explanation:
hello we will follow a step by step process for this code, i hope you find it easy.
Mips Equivalent code:
sw $0,0($fp)
.L7:
lw $2,12($fp)
addiu $2,$2,-1
lw $3,0($fp)
slt $2,$3,$2
beq $2,$0,.L2
nop
lw $2,0($fp)
sw $2,8($fp)
lw $2,0($fp)
addiu $2,$2,1
sw $2,4($fp)
.L5:
lw $3,4($fp)
lw $2,12($fp)
slt $2,$3,$2
beq $2,$0,.L3
nop
lw $2,8($fp)
dsll $2,$2,2
daddu $2,$fp,$2
lw $3,24($2)
lw $2,4($fp)
dsll $2,$2,2
daddu $2,$fp,$2
lw $2,24($2)
slt $2,$2,$3
beq $2,$0,.L4
nop
lw $2,4($fp)
sw $2,8($fp)
.L4:
lw $2,4($fp)
addiu $2,$2,1
sw $2,4($fp)
b .L5
nop
.L3:
lw $3,8($fp)
lw $2,0($fp)
beq $3,$2,.L6
nop
lw $2,0($fp)
dsll $2,$2,2
daddu $2,$fp,$2
lw $2,24($2)
sw $2,16($fp)
lw $2,8($fp)
dsll $2,$2,2
daddu $2,$fp,$2
lw $3,24($2)
lw $2,0($fp)
dsll $2,$2,2
daddu $2,$fp,$2
sw $3,24($2)
lw $2,8($fp)
dsll $2,$2,2
daddu $2,$fp,$2
lw $3,16($fp)
sw $3,24($2)
.L6:
lw $2,0($fp)
addiu $2,$2,1
sw $2,0($fp)
b .L7
nop
cheers i hope this helps
Convert C code to MIPS assembly using registers for array operations and loops, implementing selection sort for efficient sorting of array elements.
To convert the given C code snippet to MIPS assembly, we need to translate each part of the algorithm into MIPS instructions while considering the provided register assignments.
1. Initialization:
-Registers: `$s0` holds the base address of the array, `$s1` holds `n`, `$t0` holds `position`, `$t1` holds `c`, `$t2` holds `d`, and `$t3` holds `swap`.
2. Outer Loop (`for c`):
- Use a label (`outer_loop`) to mark the start of the outer loop.
- Initialize `c` to `0` and check if `c < n - 1`.
- Increment `c` after each iteration.
3. Inner Loop (`for d`):
- Inside the outer loop, set `position` to `c`.
- Use another label (`inner_loop`) to mark the start of the inner loop.
- Initialize `d` to `c + 1` and check if `d < n`.
- Compare `array[position]` with `array[d]` and update `position` if `array[d]` is smaller.
4.Swap Condition:
- After the inner loop, check if `position` is not equal to `c`.
- If true, swap `array[c]` and `array[position]` using `$t3` (`swap`) as a temporary register.
5. Assembly Code:
assembly
# Register assignments:
# $s0 - base address of array
# $s1 - n
# $t0 - position
# $t1 - c
# $t2 - d
# $t3 - swap
# Outer loop (for c)
li $t1, 0 # c = 0
outer_loop:
blt $t1, $s1, end_outer_loop # if c >= n, exit outer loop
# Inner loop (for d)
move $t0, $t1 # position = c
addi $t2, $t1, 1 # d = c + 1
inner_loop:
blt $t2, $s1, end_inner_loop # if d >= n, exit inner loop
# Load array[position] and array[d]
lw $t4, 0($s0) # $t4 = array[position]
lw $t5, 0($s0)($t2) # $t5 = array[d]
# Compare array[position] > array[d]
bgt $t4, $t5, update_position
j next_iteration_inner_loop
update_position:
move $t0, $t2 # position = d
next_iteration_inner_loop:
addi $t2, $t2, 1 # d++
j inner_loop
end_inner_loop:
# Swap if position != c
bne $t0, $t1, swap_elements
j next_iteration_outer_loop
swap_elements:
lw $t3, 0($s0)($t1) # $t3 = array[c]
lw $t4, 0($s0)($t0) # $t4 = array[position]
# Swap array[c] and array[position]
sw $t4, 0($s0)($t1) # array[c] = array[position]
sw $t3, 0($s0)($t0) # array[position] = swap
next_iteration_outer_loop:
addi $t1, $t1, 1 # c++
j outer_loop
end_outer_loop:
- Explanation: The MIPS assembly code mirrors the logic of the C code by using load (`lw`) and store (`sw`) instructions to access array elements, branches (`bgt`, `bne`, `blt`) for conditional logic, and loops (`j`) to control flow. It effectively implements the selection sort algorithm to sort the array in ascending order.
- Efficiency: This implementation efficiently sorts the array in-place using O(n^2) time complexity, suitable for moderately sized arrays given the constraints of MIPS architecture.
Complete Question;
convert the following c code to mips. assume the address of base array is associated with $s0, n is associated with $s1, position is associated with $t0, c is associated with $t1, d is associated with $t2, and swap is associated with $t3 for
for ( c = 0 c < (n - 1) c++)
{
position = c
for ( d = c + 1 d < n d ++)
{ if (array[position] > array[d])
position = d
}
if (position != c)
{
swap array[c];
array[c] = array[position];
array[position] = swap;
}
}
Your company wants to conduct an exploratory study to gain new insights into some product changes you are considering. Which type of research method would be most appropriate for this exploratory study?
Final answer:
For an exploratory study regarding product changes, ethnographic field research, informal interviews, and content analysis are ideal research methods. They provide in-depth understanding, are flexible, and can uncover unexpected insights into consumer behavior, preferences, and product perceptions.
Explanation:
If your company is considering product changes and wants to conduct an exploratory study to gain new insights, choosing the appropriate research method is crucial. For an exploratory study, ethnographic field research, informal interviews, and content analysis can be particularly beneficial. These methods allow for in-depth understanding and are highly adaptive, providing the flexibility to explore unforeseen aspects that may arise during the process.
Ethnographic field research immerses the researcher in the environment of the subjects, leading to comprehensive insights into consumer behavior and product interaction in natural settings. Informal interviews can yield nuanced information about user experiences and expectations. Content analysis of social media, forums, and customer feedback can uncover trends and sentiments about the products in question. These methods are suited for exploratory research because they do not require firm hypotheses and are capable of revealing unexpected aspects of the research subject that structured methods such as surveys might miss.
While these research methods can offer rich, qualitative data, it is important to consider their limitations, such as potential biases, non-representative samples, and the interpretation of results, which can be subjective. Nevertheless, for gaining initial insights and a deeper understanding of user perspectives regarding product changes, they are very appropriate choices for an exploratory research design.
Final answer:
Exploratory research using advisory boards, insights from knowledgeable individuals, and carefully selected surveys is the most appropriate method for a company to gain new insights into product changes.
Explanation:
For a company seeking to gain new insights into product changes, exploratory research is the most appropriate research method.
This type of research is suitable for the early stages of a project, particularly when little prior research exists or when the company wants to understand the feasibility of a more extensive study. Two effective methods within exploratory research could include forming an advisory board with target audience members or gathering insights from individuals with close contacts to the target audience.
Additionally, surveys can be useful in exploratory research to assess individual reactions or opinions towards product changes, but it is crucial to select respondents who have adequate knowledge and unbiased perspectives, especially when dealing with perceptions or team dynamics at work.
Write a Python function powerSet() that takes in a finite list object A and returns P(A), the power set of A. The output should be only in the form of list objects. Note: Make sure you are familiar with some of Python's basic built-in list functions and operators, as they will make completing this problem far easier. For example:
Answer:
#Code segment is written in Python Programming Language
#define Powerset(A)
def Powerset(A):
#Calculate length
Length = len(A)
#iterate through A
masks = [1 << count for count in range(A)]
for count in range(1 << Length):
yield [xy for mask, xy in zip(masks, A) if count & mask]
#Print Powerset
print(list(powerset([1,2,3])))
Explanation:
Line 1 defines the powerset
Line 2 calculates the length
Line 3 gets a range of the power set from 1 to the last
Line 4 checks if the iteration variable is still within range
Line 5 generates the Powerset
The essence of using the yield keyword is to ensure that one do not need to calculate all results in a single piece of memory.
Line 6 is to do the test code.
A user is unable to install virtualization software on a Windows 8.1 computer. The user verified the host has sufficient RAM, plenty of available free disk space, and a multicore processor.
Which of the following is the most likely cause for this behavior?
a. Windows 8.1 does not support Type 2 hypervisors.
b. The motherboard does not support hardware-assisted virtualization.
c. The user does not have a valid product license key.
d. The system is incompatible with Type 1 hypervisors.
Answer:
The correct option is C. The user does not have a valid product license key. Both the OS installed on the bare metal (that the host) and the client OS must have a valid license key.
Explanation:
There is a powerful virtualization tool is built into every copy of Microsoft Windows 8.x Pro and Windows 8.x Enterprise, Client Hyper-V.
This is the very same Type-1 hypervisor that runs virtualized enterprise workloads and comes with Microsoft Windows Server 2012 R2. The virtual machines you create on your desktop with Client Hyper-V are fully compatible with those server systems as well.
If you need to do testing as a software developer, or simply want an additional operating system(s) running on your computer, such as Linux, Hyper-V can be a great feature to have enabled on your PC.
To have the Hyper-V feature on your PC, you'll need to meet some basic requirements like your computer will need 4GB of RAM with a 64-bit processor that has Second Level Address Translation (SLAT).
Many PCs on the market have this feature, while many PC BIOSes have virtualization features turned on by default, your PC might not.
As BIOS menu layouts are not universal, you'll want to consult your PC BIOS documentation as to where the feature is located in your firmware setup and what it is called.
a. Windows 8.1 does not support Type 2 hypervisors.
This option is wrong. All 64-bit Windows 8.1 OS except for the Home version supports hypervisors type 2 as well as type 1
b. The motherboard does not support hardware-assisted virtualization.
Most of the PC that can run Windows 8.1 has visualization, all that is needed is to have it enabled if it was it enabled by default in the BIOS
c. The user does not have a valid product license key.
This is the correct answer. For you to successfully install visualization software on Windows 8.1, both the host OS and the client OS must have a valid product key
d. The system is incompatible with Type 1 hypervisors.
This option is wrong. The Windows 8.1 OS does not only support the installation of visualization software, it came with its hypervisor called Hyper-V.
Write a setInterval() function that increases the count by 1 and displays the new count in counterElement every 100 milliseconds. Call clearInterval() to cancel the interval when the count displays 4.
Answer:
var count = 0;
var counterElement = document.getElementById("counter");
counterElement.innerHTML = count;
var interval = setInterval(function () {
count++;
counterElement.innerHTML = count;
if (count === 4) {
clearTimeout(interval);
}
}, 100);
Explanation:
Chapter 4 is called Claimed Spaces: ""Preparatory Privilege"" and High School Computer Science. Explain two concepts from chapter 4 that create ‘claimed spaces’ (2-3 sentences). Describe an example from your own experience of a claimed space (2-3 sentences)
Answer: isolation, predominant gender.
Explanation:
Isolation some students felt they were not as smart as their peers and as such were afraid to make contributions because they didn't want to be rediculed by Their peers or tutors.
Predominant gender most calsses are dominated by a certain gender which makes the other gender harbour fears and insecurity
I had difficulty in maths in high school, was always afraid when in class to make contributions because i was insecure, if i had spoken up or met my tutors maybe i would have being better at it
Using a while loop, write a code that will continue to calculate the following equation until the solution gets to be above 100, x will start at zero. What is the final solution and how many iterations does it take to complete (prob05) as a row vector.
Answer:
prob05.m
clc
x=0;
sum=0;
iteration=0;
while (sum<100)
x=2*x+1;
sum=sum+x;
x=x+1;
iteration=iteration+1;
end
fprintf('total iteraton take to sum greater than 100 is %d and sum becomes %d\n',iteration,sum);
Explanation:
Write a function addOddMinusEven that takes two integers indicating the starting point and the end point. Then calculate the sum of all the odd integers minus the sum of all even integers between the two points. The calculation includes the starting point but excludes the end point. You can always assume the starting point is smaller than the end point.
Answer:g
public static int addOddMinusEven(int start, int end){
int odd =0;
int even = 0;
for(int i =start; i<end; i++){
if(i%2==0){
even = even+i;
}
else{
odd = odd+i;
}
}
return odd-even;
}
}
Explanation:
Using Java programming language:
The method addOddMinusEven() is created to accept two parameters of ints start and endUsing a for loop statement we iterate from start to end but not including endUsing a modulos operator we check for even and oddsThe method then returns odd-evenSee below a complete method with a call to the method addOddMinusEven()public class num13 {
public static void main(String[] args) {
int start = 2;
int stop = 10;
System.out.println(addOddMinusEven(start,stop));
}
public static int addOddMinusEven(int start, int end){
int odd =0;
int even = 0;
for(int i =start; i<end; i++){
if(i%2==0){
even = even+i;
}
else{
odd = odd+i;
}
}
return odd-even;
}
}
Write a for loop to print all elements in courseGrades, following each element with a space (including the last). Print forwards, then backwards. End each loop with a newline. Ex: If courseGrades = {7, 9, 11, 10}, print:
7 9 11 10
10 11 9 7
Hint: Use two for loops. Second loop starts with i = NUM_VALS - 1.
Note: These activities may test code with different test values. This activity will perform two tests, the first with a 4-element array (int courseGrades[4]), the second with a 2-element array (int courseGrades[2]). See How to Use zyBooks.
Also note: If the submitted code tries to access an invalid array element, such as courseGrades[9] for a 4-element array, the test may generate strange results. Or the test may crash and report "Program end never reached", in which case the system doesn't print the test case that caused the reported message.
code:
import java.util.Scanner;
public class CourseGradePrinter {
public static void main (String [] args) {
final int NUM_VALS = 4;
int[] courseGrades = new int[NUM_VALS];
int i = 0;
courseGrades[0] = 7;
courseGrades[1] = 9;
courseGrades[2] = 11;
courseGrades[3] = 10;
return;
}
}
Answer:
Java code explained below
Explanation:
CourseGradePrinter.java
import java.util.Scanner;
public class CourseGradePrinter {
public static void main (String [] args) {
final int NUM_VALS = 4;
int[] courseGrades = new int[NUM_VALS];
int i = 0;
courseGrades[0] = 7;
courseGrades[1] = 9;
courseGrades[2] = 11;
courseGrades[3] = 10;
for(i=0; i<NUM_VALS; i++){
System.out.print(courseGrades[i]+" ");
}
System.out.println();
for(i=NUM_VALS-1; i>=0; i--){
System.out.print(courseGrades[i]+" ");
}
return;
}
}
Output:
7 9 11 10
10 11 9 7
In this assignment, you will model the game of Bulgarian Solitaire. The game starts with 45 cards. (They need not be playing cards. Unmarked index cards work just as well.) Randomly divide them into some number of piles of random size. For example, you might start with piles of size 20, 5, 1, 9, and 10. In each round, you take one card from each pile, forming a new pile with these cards. For example, the sample starting configuration would be transformed into piles of size 19, 4, 8, 10, and 5. The solitaire is over when the piles have size 1, 2, 3, 4, 5, 6, 7, 8, and 9, in some order. (It can be shown that you always end up with such a configuration.)
In your program, produce a random starting configuration and print it. Then keep applying the solitaire step and print the result. Stop when the solitaire final configuration is reached.
Use the following class as your main class:
import java.util.ArrayList;
import java.util.Random;
public class BulgarianSolitaire
{
private ArrayList piles;
/**
Sets up the game randomly with some number of piles of random
size. The pile sizes add up to 45.
*/
public void setupRandomly()
{
. . .
}
/**
This method can be used to set up a pile with a known (non-random)
configuration for testing.
@param pileSizes an array of numbers whose sum is 45
*/
public void setup(int[] pileSizes)
{
piles = new ArrayList();
for (int s : pileSizes)
piles.add(s);
}
public String getPiles()
{
return piles.toString();
}
/**
Play the game.
*/
public void play()
{
while (!isDone())
{
System.out.println(getPiles());
playRound();
}
System.out.println(getPiles());
}
/**
Play one round of the game.
*/
public void playRound()
{
. . .
}
/**
Checks whether the game is done.
@return true when the piles have size
1, 2, 3, 4, 5, 6, 7, 8, and 9, in some order.
*/
public boolean isDone()
{
. . .
}
}
Sample run:
13 4 6 6 10 6
6 12 3 5 5 9 5
7 5 11 2 4 4 8 4
8 6 4 10 1 3 3 7 3
9 7 5 3 9 2 2 6 2
9 8 6 4 2 8 1 1 5 1
10 8 7 5 3 1 7 4
8 9 7 6 4 2 6 3
8 7 8 6 5 3 1 5 2
9 7 6 7 5 4 2 4 1
9 8 6 5 6 4 3 1 3
9 8 7 5 4 5 3 2 2
9 8 7 6 4 3 4 2 1 1
……….
9 8 7 6 4 5 3 2 1
9 8 7 6 5 3 4 2 1
9 8 7 6 5 4 2 3 1
9 8 7 6 5 4 3 1 2
9 8 7 6 5 4 3 2 1
Number of iterations: 52
Answer:
note:
solution is attached in word form due to error in mathematical equation. furthermore i also attach Screenshot of solution in word due to different version of MS Office please find the attachment
You are designing a write buffer between a write-through L1 cache and a write-back L2 cache. The L2 cache write data bus is 16 B wide and can perform a write to an independent cache address every 4 processor cycles.
a. How many bytes wide should each write buffer entry be?
b. What speedup could be expected in the steady state by using a merging write buffer instead of a non-merging buffer when zeroing memory by the execution of 64-bit stores if all other instructions could be issued in parallel with the stores and the blocks are present in the L2 cache?
c. What would be the effect of possible L1 misses on the number of required write buffer entries for systems with blocking and non-blocking caches?
Answer:
Clock 2.5GHz
L1 I cache 32KB, 8way, 64B line size, 4 cycle access latency
L1 Dcache write-back, write-allocate; MSHR with 0 (lockup
cache), 1, 2, and 64 (unconstrained non-blocking
cache) entries, write-back buffer with 16 entries
L2 cache 256KB, 8way, 64B line size, 10 cycle access latency
L3 cache 2MB per core, 64B line size, 36 cycle access latency
Memory DDR3-1600, 90 cycle access latency
Issue width 4
Instruction window size 36
ROB Size 128
Load Buffer Size 48
Store Buffer Size 32
b)
parallelism took this a step further by providing more parallelism and hence more
latency-hiding opportunities. It is likely that the use of instruction- and threadlevel
parallelism will be the primary tool to combat whatever memory delays are
encountered in modern multilevel cache systems.
that of the lockup cache setup (hit-under-0-miss). For the integer programs: the average performance
(measured as CPI) improvement is 7.08% for hit-under-1-miss, 8.36% for hit-under-2-misses, and 9.02%
for hit-under-64-misses (essentially the unconstraint non-blocking cache), compared to lockup cache. For
the floating point programs, the three numbers are 12.69%, 16.22%, and 17.76%, respectively
c)
Non-blocking caches are an effective technique for tolerating cache-miss latency. They can reduce
miss-induced processor stalls by buffering the misses and continuing to serve other independent access
requests. Previous research on the complexity and performance of non-blocking caches supporting
non-blocking loads showed they could achieve significant performance gains in comparison to blocking
caches. However, those experiments were performed with benchmarks that are now over a decade old.
Furthermore the processor that was simulated was a single-issue processor with unlimited run-ahead
capability, a perfect branch predictor, fixed 16-cycle memory latency, single-cycle latency for floating
point operations, and write-through and write-no-allocate caches. These assumptions are very different
from today's high performance out-of-order processors such as the Intel Nehalem. Thus, it is time to
re-evaluate the performance impact of non-blocking caches on practical out-of-order processors using
up-to-date benchmarks. In this study, we evaluate the impacts of non-blocking data caches using the latest
SPECCPU2006 benchmark suite on practical high performance out-of-order (OOO) processors.
Simulations show that a data cache that supports hit-under-2-misses can provide a 17.76% performance
gain for a typical high performance OOO processor running the SPECCPU 2006 benchmarks in
comparison to a similar machine with a blocking cache.
Explanation:
Which of the following statement is true?
a. the MAC address cannot be spoofed
b. the IP address can be spoofed, so if you want to read response from the deceived party, you can use
c. IP spoofing to hide yourself IP spoofing can be used for denial of service attack
d. IP spoofing can be prevented or detected by switches
Answer:
b. the IP address can be spoofed, so if you want to read response from the deceived party, you can use IP spoofing to hide yourself.
Explanation:
Create a C# GUI Windows Form application named JobDemo that declares and uses Job objects. The Job class holds job information for a home repair service. The class has five properties that include a job number, customer name, job description, estimated hours, and price for the job. Create a constructor that requires parameters for all the data except price. Include auto-implemented properties for the job number, customer name, and job description, but not for hours or price; the price field value is calculated as estimated hours times $45.00 whenever the hours value is set.
Also create the following for the class:
An Equals() method that determines two Jobs are equal if they have the same job number A ToString() method that returns a string containing all job information
The JobDemo Windows Form declares a few Job objects, sets their values, and demonstrates that all the methods work as expected.
Using the Job class you created in (a), write a new application named JobDemo2 that creates an array of five Job objects. Prompt the user for values for each Job. Do not allow duplicate job numbers; force the user to reenter the job when a duplicate job number is entered. When five valid objects have been entered (use List), display them all, plus a total of all prices.
Create a RushJob class that derives from Job. A RushJob has a $150.00 premium that is added to the normal price of the job. Override any methods in the parent class as necessary. Create a new Windows Form named JobDemo3 that creates an a List of five RushJobs. Prompt the user for values for each, and do not allow duplicates
Create a RushJob class that derives from Job. A RushJob has a $150.00 premium that is added to the normal price of the job. Override any methods in the parent class as necessary. Write a new Windows Form named JobDemo3 that creates a List of five RushJobs. Prompt the user for values for each, and do not allow duplicate job numbers. When five valid RushJob objects have been entered, display them all, plus a total of all prices. Make any necessary modifications to the RushJob class so that it can be sorted by job number.
Here's the implementation for the requested tasks:
### Job Class
```csharp
using System;
public class Job
{
private static int nextJobNumber = 1;
public int JobNumber { get; }
public string CustomerName { get; set; }
public string JobDescription { get; set; }
public double EstimatedHours { get; set; }
public double Price => EstimatedHours * 45.00;
public Job(string customerName, string jobDescription, double estimatedHours)
{
JobNumber = nextJobNumber++;
CustomerName = customerName;
JobDescription = jobDescription;
EstimatedHours = estimatedHours;
}
public override bool Equals(object obj)
{
if (obj == null || GetType() != obj.GetType())
{
return false;
}
Job otherJob = (Job)obj;
return JobNumber == otherJob.JobNumber;
}
public override int GetHashCode()
{
return JobNumber.GetHashCode();
}
public override string ToString()
{
return $"Job Number: {JobNumber}, Customer Name: {CustomerName}, Job Description: {JobDescription}, Estimated Hours: {EstimatedHours}, Price: {Price:C}";
}
}
```
### JobDemo Form
```csharp
using System;
using System.Collections.Generic;
using System.Windows.Forms;
namespace JobDemo
{
public partial class JobDemoForm : Form
{
private List<Job> jobs = new List<Job>();
public JobDemoForm()
{
InitializeComponent();
}
private void addButton_Click(object sender, EventArgs e)
{
string customerName = customerNameTextBox.Text;
string jobDescription = jobDescriptionTextBox.Text;
double estimatedHours;
if (double.TryParse(estimatedHoursTextBox.Text, out estimatedHours))
{
Job job = new Job(customerName, jobDescription, estimatedHours);
if (!jobs.Contains(job))
{
jobs.Add(job);
outputListBox.Items.Add(job.ToString());
totalLabel.Text = $"Total: {CalculateTotal():C}";
}
else
{
MessageBox.Show("Duplicate job number. Please enter a unique job number.");
}
}
else
{
MessageBox.Show("Invalid estimated hours. Please enter a valid number.");
}
}
private double CalculateTotal()
{
double total = 0;
foreach (var job in jobs)
{
total += job.Price;
}
return total;
}
}
}
```
### RushJob Class
```csharp
public class RushJob : Job, IComparable<RushJob>
{
private const double RushJobPremium = 150.00;
public RushJob(string customerName, string jobDescription, double estimatedHours)
: base(customerName, jobDescription, estimatedHours)
{
}
public override double Price => base.Price + RushJobPremium;
public int CompareTo(RushJob other)
{
return JobNumber.CompareTo(other.JobNumber);
}
}
```
### JobDemo3 Form
```csharp
using System;
using System.Collections.Generic;
using System.Linq;
using System.Windows.Forms;
namespace JobDemo
{
public partial class JobDemo3Form : Form
{
private List<RushJob> rushJobs = new List<RushJob>();
public JobDemo3Form()
{
InitializeComponent();
}
private void addButton_Click(object sender, EventArgs e)
{
string customerName = customerNameTextBox.Text;
string jobDescription = jobDescriptionTextBox.Text;
double estimatedHours;
if (double.TryParse(estimatedHoursTextBox.Text, out estimatedHours))
{
RushJob rushJob = new RushJob(customerName, jobDescription, estimatedHours);
if (!rushJobs.Any(rj => rj.JobNumber == rushJob.JobNumber))
{
rushJobs.Add(rushJob);
outputListBox.Items.Add(rushJob.ToString());
totalLabel.Text = $"Total: {CalculateTotal():C}";
}
else
{
MessageBox.Show("Duplicate job number. Please enter a unique job number.");
}
}
else
{
MessageBox.Show("Invalid estimated hours. Please enter a valid number.");
}
}
private double CalculateTotal()
{
double total = 0;
foreach (var rushJob in rushJobs)
{
total += rushJob.Price;
}
return total;
}
}
}
This code should fulfill the requirements you've specified. Let me know if you need further assistance!
When you type into a basic search engine like Google, Bing, or Yahoo!, the sites that appear at the top or on the side of the results page are usually those that ________.
The sites that appear at the top or on the side of the results page are usually those that have paid for there presence on the home page.
Explanation:
It takes a fortune to list on the top or side of the search engine's result page (SERP). Presence on the top or side of the result page guarantees enhanced visibility and increased conversion chances.
The web content masters who are in the need of such strategic advantage often pay for it. The search engine such as Google, Yahoo charges them based on their preferences, content length and the target region. However, with adequate search optimisations, one can make his/her site appear on top in the search page list.
Define the body of the function read_data(filename). If filename is None, return the sentence (already defined for your), otherwise return the contents of the file (whose name is in the parameter filename). If there is any error during the opening or reading of the file, print out a warning and return sentence. If you haven't completed the lesson on Python local I/O, do so now.
Answer:
Answer explained
Explanation:
The main difference between parse_text_into_words( v1 and v2) is I have used splitlines also in v1 so the escape sequence '\n' will not be present in the list of words. while in v2 only split function is used so it will have '\n' present in words list.
Code:
def read_file(fileName = None):
try:
File = open(fileName,"r") # opening file in read mode
for row in File: # for each line in File
print(row,end="")
except IOError: # handling exception of file opening
print("Could not read file:",fileName)
def parse_text_into_words_v1(text):
list_words = []
list_lines = text.splitlines()
for i in list_lines:
list_words.extend(i.split(' '))
return list_words
def parse_text_into_words_v2(text):
list_words = []
list_words.extend(text.split(' '))
return list_words
def determine_difference(a_list,b_list):
print("first list:",a_list)
print("second list:",b_list)
a_set = set(a_list)
b_set = set(b_list)
diff = a_set - b_set
diff = list(diff)
print("\nDifference between 2 sets: ",diff)
if __name__ == '__main__':
print("Reading file using function read_file() to read \"data.txt\" :")
read_file("data.txt")
print("\n\n")
t = '''vhfhyh ghgggj ghchvjhvj'''
print("\nDemonstrating implementation of parse_text_into_words_v1:")
l = parse_text_into_words_v1(t) # calling function with text parameter
print("list of words:")
print(l)
print("\nDemonstrating implementation of parse_text_into_words_v2:")
b = parse_text_into_words_v2(t) # calling function with text parameter
print("list of words:")
print(b)
print("\nDemonstrating difference between two lists")
a_list = [1,2,3,4,5,6,7,8,9,10]
b_list = [2,4,6,8,10]
determine_difference(a_list,b_list) # passing two list to take difference
Once sales are forecasted, ________ must be generated to estimate required raw materials. A. a pro forma statement B. a production plan C. a cash budget
Answer:
Option B i.e., a production plan.
Explanation:
While sales are estimated, the manufacturing schedule for estimating the necessary raw materials should be produced.
So when the revenue is already estimated then at that time the manufacturing schedule should be produced approximately that raw material which is needed, so the following option is correct according to the scenario.
Option a is incorrect because it is not related to the following scenario.Option B is incorrect because in the above statement, it is not mentioned or related to the budget plan.Write a program that declares constants to represent the number of inches, feet, and yards in a mile. Name the constants INCHES_IN_MILE, FEET_IN_MILE, and YARDS_IN_MILE respectively. Also declare a variable named miles to represent a number of miles. Compute and display, with explanatory text, the value in inches, feet, and yards—for example: 4.0 miles is 253440.0 inches, or 21120.0 feet, or 7040.0 yards
Answer:
The cpp program for conversion is given below.
#include <iostream>
using namespace std;
int main() {
// declaring and initializing constant variables with standard values
const double INCHES_IN_MILE=63360;
const double FEET_IN_MILE=5280;
const double YARDS_IN_MILE=1760;
// declaring and initializing miles with a random value
double miles=4.0;
// declaring and computing inches in miles
double inch = INCHES_IN_MILE*miles;
// declaring and computing feet in miles
double feet = FEET_IN_MILE*miles;
// declaring and computing yards in miles
double yard = YARDS_IN_MILE*miles;
// displaying all the calculated values
std::cout<<miles<<" miles is "<<inch<<" inches"<<std::endl;
std::cout<<miles<<" miles is "<<feet<<" feet"<<std::endl;
std::cout<<miles<<" miles is "<<yard<<" yards"<<std::endl;
return 0;
}
OUTPUT
4 miles is 253440 inches
4 miles is 21120 feet
4 miles is 7040 yards
Explanation:
The steps in the program are as described.
1. All the three constant variables, mentioned in the question, are declared as double and initialized. These variables hold the fixed conversion values for inches, feet and yards in one mile.
2. The variables are declared constant using the keyword, const.
3. The variable to hold value for mile, miles, is declared as double and initialized with a random value.
4. Next, three more variables are declared as double. These variables will hold the calculated values for inches, feet and yards in the given value of mile.
5. The values are calculated for inches, feet and yards for the given value of variable, miles and stored in the variables mentioned in step 3.
6. These values are displayed to the console along with explanations.
7. The program ends with the return statement.
8. The value of variable, miles, is hard coded in the program and not taken from the user.
9. There is no interaction with the user in this program as this is not mentioned in the question.
10. The program works for all numeric value of the variable, miles, since double accepts integers also.
11. The program can be tested by changing the value of variable, miles.
You need to write a program that reads in the mass of an object (in kg) and output the weight (in N) on the Earth, on the Moon, and on Venus. An object's mass can be measured in kilograms. The weight is measured in newtons. So an object of a specific mass (in kilograms) would have one weight (in newtons) on the earth and a different weight on the moon. Your program will read in the mass (in kilograms) and convert it to newtons for the Earth, the Moon, and Venus. So, on the Earth we can convert kilograms to newtons with the following expression: weight = mass * 9.81 where 9.81 is the acceleration due to gravity on earth (in meters per second squared or m/s^2). On the Moon this formula would be: weight = mass * 1.62 where 1.62 is the acceleration due to gravity on the moon (m/s^2) Finally, for Venus it would be: weight = mass * 8.87
Answer:
#include <iostream>
#include<iomanip>
using namespace std;
int main()
{
double mass,e,m,v;
cout<<"Enter the mass : ";
cin>>mass;
cout<<"The mass is "<<mass<<" kg\n";
if(mass<=0){
cout<<" mass must be greater than zero";
return 0;
}
e= mass * 9.81;
m= mass * 1.62;
v = mass * 8.87;
cout.setf(ios::fixed);
cout<<"Location"<<right<<setw(10)<<"Weight\n";
cout<<"Earth"<<right<<setw(15)<<setprecision(4)<<e<<endl;
cout<<"Moon"<<right<<setw(15)<<setprecision(4)<<m<<endl;
cout<<"Venus"<<right<<setw(15)<<setprecision(4)<<v<<endl;
cout<<endl<<endl;
if(m>=1500)
cout<<"Object is light weight";
else
cout<<"Object is heavy weight";
}
Explanation:
Final answer:
An object's weight is calculated by multiplying its mass by the acceleration due to gravity, which varies by celestial body. On Earth, the weight is the mass times 9.81 m/s², while on the Moon it is mass times 1.62 m/s², and on Venus, the weight is calculated with an acceleration due to gravity of 8.87 m/s².
Explanation:
The mass of an object is a measure of the amount of matter in that object and does not change regardless of the object's location. On the other hand, weight is the force exerted by gravity on an object and is calculated by multiplying the mass (in kilograms) by the acceleration due to gravity (in meters per second squared, m/s²). This acceleration due to gravity varies depending on the celestial body.
On Earth, the acceleration due to gravity is approximately 9.81 m/s², which means that an object's weight can be calculated as its mass multiplied by 9.81. For example, a mass of 100 kg on Earth would have a weight of 981 Newtons (N).
The Moon's gravitational acceleration is much lower, around 1.62 m/s². Thus, the same 100 kg object would weigh 162 N on the Moon. It's clear that, although mass remains consistent, weight varies significantly depending on the acceleration due to gravity at the location.
Similarly, on Venus, the acceleration due to gravity is 8.87 m/s². To find the weight of an object on Venus, you multiply its mass by this acceleration. So, a 100 kg object would weigh approximately 887 N on Venus.
The distinction between mass and weight is important as it highlights that weight can change locationally due to variations in gravitational pull, while mass is an intrinsic property of an object that does not change with location.
Write two functions called permutation() and combination(), where permutation() computes and returns n!/(n-r)!whereas combination() returns. n!/(n-r)!r!A third function called par_input() gets the input values for n and r. An example of correct program behavior follows: Input: 3 2 Output: The permutation is 6, and the combination is 3.
Answer:
Here is the program in C.
#include<stdio.h> // header file used to input output operations
int permutation(int n, int r); // function to computer permutation
int combination(int n, int r); //function to compute combination
int factorial(int number); // function to computer factorial
void par_input(int n, int r); // function take take input value of n and r
int main() //start of main() function body
{
int n,r; // declare n and r variables
par_input(n,r); //calls par_input() function to get values of n and r
}
int permutation(int n, int r) // method to calculate permutation
{
return factorial(n) / factorial(n-r); //formula for permutation
}
int combination(int n, int r) // method to calculate combination
{
return permutation(n, r) / factorial(r); //formula for combination
}
int factorial(int number) // to find factorial of a number
{
int fact = 1;
while(number > 0) //loop continues until value of number gets <=0
{
fact = fact *number;
number--;
}
return fact;
}
void par_input(int n, int r) //function to take input values
{
printf("Enter n: "); //prompts user to enter the value of n
scanf("%d", &n); //reads the value of n from user
printf("Enter r: "); ////prompts user to enter the value of r
scanf("%d", &r); //reads the value of r from user
//calls the combination and permutation methods to display results
printf("The permutation is = %d\n", permutation(n, r));
printf("The Combination is = %d", combination(n, r));
}
Explanation:
The main() function calls par_input() function. This function asks user to enter values of n and r and then calls permutation() and combination() methods to compute the combination and permutation using these input values. Lets say user enters n=3 and r=2The permutation() function computes and returns permutation using the following formula: n! / (n-r)! factorial(n) / factorial(n-r); This function calls factorial method which calculates the factorial of n and n-r.This function then returns the permutation.3! / (3-2)! = 3*2*1 / 1! = 6Next the combination() function computes and returns combination using the following formula: n! / r! * (n - r)!permutation(n, r) / factorial(r)This function calls permutation() and factorial() methods which calculate the combination of n and n-rThis function then returns the combination.3! / 2! * (3-2)! = 3*2*1 / 2*1 * 1 = 6 / 2 = 3 Factorial function computes and returns the factorial of n, r and n-r.Lets take n! When n=3 So this function computes factorial as follows:while loops checks if number>0 It is true as number is 3It multiplies 3 by fact. fact is initialized to 1 So1*3 = 3Then it decreases number=3 by 1 so number=2Now while loops checks if number>0 It is true as number is 2It multiplies 2 by fact. Value of fact is now 3 So3*2 = 6Then it decreases number=2 by 1 so number=1Now while loops checks if number>0 It is true as number is 1It multiplies 1 by fact. Value of fact is now 6 So6*1 = 6Then it decreases number=1 by 1 so number=0Now while loops checks if number>0 It is false as number is 0So the loop breaks and the value of fact is returned.As fact= 6 So factorial of n is 6.The output of the program is attached in the screen shot.
Write a method swapPairs that switches the order of values in an ArrayList of Strings in a pairwise fashion. Your method should switch the order of the first two values, then switch the order of the next two, switch the order of the next two, and so on. For example, if the list initially stores these values: {"four", "score", "and", "seven", "years", "ago"} your method should switch the first pair, "four", "score", the second pair, "and", "seven", and the third pair, "years", "ago", to yield this list: {"score", "four", "seven", "and", "ago", "years"} If there are an odd number of values in the list, the final element is not moved. For example, if the original list had been: {"to", "be", "or", "not", "to", "be", "hamlet"} It would again switch pairs of values, but the final value, "hamlet" would not be moved, yielding this list: {"be", "to", "not", "or", "be", "to", "hamlet"}
Answer:
public static void swapPairs(ArrayList strList)
{
for(int i = 0; i < strList.size() - 1; i += 2)
{
String temp1 = strList.get(i);
String temp2 = strList.get(i + 1);
strList.set(i, temp2);
strList.set(i + 1, temp1);
}
}
Explanation: