Answer:
Nelson proposed a system where copying and linking any text excerpt, image or form was possible.
Explanation:
Ted Nelson is one of the theoretical pioneers of the world wide web who is best known for inventing the concept of hypertext and hypermedia in the 1960s. As one of the early theorists on how a networked world would work.
How I know:
I goggle it.
Pls awnser I will mark brainliest math
Answer:
2788 or 116
Explanation:
You are the systems administrator for a large trust company. Most of the Linux servers in the company host databases that are accessed frequently by company employees. One particular Linux server has been reported as being very slow today. Upon further investigation using the top utility, you have found a rogue process that is wasting a great deal of system resources. Unfortunately, the rogue process is a database maintenance program and should be killed with caution. Which kill signal would you send this process and why? If the rogue process traps this signal, which other kill signals would you try? Which command could you use as a last resort to kill the rogue process?
Answer:
soo long this one is ufff
A company is developing a smart TV that connects to a wireless home network. Which technology can best help to establish this connection?
Bluetooth
Infrared
C.
WI-FI
D
Internet of things
E
satellite
A company is developing a smart TV that connects to a wireless home network. Which technology can best help to establish this connection?
C. Wi-Fi.
True or False
humans shed skin in their sleep (pwease fweinds onwy answer)
Answer:
Not all people but sometimes it happens
Write a Java program that asks the user to enter an array of integers in the main method. The program should prompt the user for the number of elements in the array and then the elements of the array. The program should then call a method named minGap that accepts the array entered by the user as a parameter and returns the minimum 'gap' between adjacent values in the array. The main method should then print the value returned by the method. The gap
Answer:
In Java:
import java.util.*;
class Main {
public static void minGap(int intArray[], int arrlength) {
if(arrlength <2){return;}
int minm = Math.abs(intArray[1] - intArray[0]);
for (int i = 2; i < arrlength; i++)
minm = Math.min(minm, Math.abs(intArray[i] - intArray[i - 1]));
System.out.print("Minimum Gap = " + minm);
}
public static void main(String arg[]) {
Scanner input = new Scanner(System.in);
int arrlength;
System.out.print("Array Length: ");
arrlength = input.nextInt();
int[] intArray = new int[arrlength];
for(int i = 0;i<arrlength;i++){
intArray[i] = input.nextInt();
}
minGap(intArray, arrlength);
} }
Explanation:
The minGap method begins here
public static void minGap(int intArray[], int arrlength) {
This checks if array length is 1 or 0. If yes, the program returns nothing
if(arrlength <2){return;}
If otherwise, this initializes the minimum gap to the difference between the 0 and 1 indexed array elements
int minm = Math.abs(intArray[1] - intArray[0]);
This iterates through the array elements
for (int i = 2; i < arrlength; i++)
This checks for the minimum gap
minm = Math.min(minm, Math.abs(intArray[i] - intArray[i - 1]));
At the end of the iteration, the minimum gap is printed
System.out.print("Minimum Gap = " + minm);
}
The main method begins here
public static void main(String arg[]) {
Scanner input = new Scanner(System.in);
This declares the length of the array
int arrlength;
This prompts the user for array length
System.out.print("Array Length: ");
This gets the user input
arrlength = input.nextInt();
This declares the array
int[] intArray = new int[arrlength];
The following iteration gets input for the array
for(int i = 0;i<arrlength;i++){
intArray[i] = input.nextInt();
}
This calls the minGap method
minGap(intArray, arrlength);
}
Implement the ArrayMethod application containing an array that stores eight integers. The application should call the following five methods: 1. display - should display all the integers 2. displayReverse - should display all the integers in reverse order 3. displaySum - should display the sum of the integers 4. displayLessThan - should display all values less than a limiting argument 5. displayHigherThanAverage - should display all values that are higher than the calculated average value.
Answer:
public static void display(int [] arr){
System.out.print("Arrays: ");
for(int i =0;i<arr.length;i++){
System.out.print(arr[i]+" ");
}
System.out.println();
}
public static void displayReverse (int [] arr){
System.out.print("Arrays in reverse order: ");
for(int i=arr.length-1;i>=0;i--){
System.out.print(arr[i]+" ");
}
System.out.println();
}
public static int displaySum (int [] arr){
System.out.print("Sum: ");
int sum = 0;
for(int i =0;i<arr.length;i++){
sum+=arr[i];
}
return sum;
}
public static void displayLessThan (int [] arr, int num){
System.out.print("Less than "+num+": ");
for(int i =0;i<arr.length;i++){
if(arr[i]<num){
System.out.print(arr[i]+" ");
}
}
System.out.println();
}
public static void displayHigherThanAverage (int [] arr){
System.out.print("Higher than average: ");
int sum = 0;
for(int i =0;i<arr.length;i++){
sum+=arr[i];
}
float average = sum/arr.length;
for(int i =0;i<arr.length;i++){
if(arr[i]>average){
System.out.print(arr[i]+" ");
}
}
System.out.println();
}
Explanation:
The methods were written in Java. See attachment for explanation where I used comments to explain each lines.
Note that lines that begin with double slash (//) are comments
Which of the following are advantages of converting analog audio to digital audio? Choose all that apply
Reduction in editing time
Consistently accurate copies of audio recordings
Preservation
Susceptibility to computer viruses
Answer:
b and c
Explanation:
sorry if there wrong
Answer: A, B, and C
Explanation:
Match the data type to the given data.
1. float
2. array
3. Boolean
4. character
false
с
c, o, m, p, u, t, er
26.2
The objective of this task is to use Scapy to estimate the distance, in terms of number of routers, between your VM and a selected destination. This is basically what is implemented by the traceroute tool. In this task, we will write our own tool. The idea is quite straightforward: just send an packet (any type) to the destination, with its Time-To-Live (TTL) field set to 1 first. This packet will be dropped by the first router, which will send us an ICMP error message, telling us that the time-to-live has exceeded. That is how we get the IP address of the first router. We then increase our TTL field to 2, send out another packet, and get the IP address of the second router. We will repeat this procedure until our packet finally reach the destination. It should be noted that this experiment only gets an estimated result, because in theory, not all these packets take the same route (but in practice, they may within a short period of time). The code in the following shows one round in the procedure. a = IP() a.dst = ’1.2.3.4’ a.ttl = 3 b = ICMP() send(a/b) If you are an experienced Python programmer, you can write your tool to perform the entire procedure automatically. If you are new to Python programming, you can do it by manually changing the TTL field in each round, and record the IP address based on your observation from Wireshark. Either way is acceptable, as long as you get the result.
Answer:
answer b
is correct
Suppose end system A wants to send a large file to end system B. At a very high level, describe how end system A creates packets from the file. When one of these packets arrives to a packet switch, what information in the packet does the switch use to determine the link onto which the packet is forwarded
Answer:
The answer is below
Explanation:
Suppose end system A wants to send a large file to end system B, the large file is first divided into smaller chunks. Each chunk is then assigned a header forming a packet. Multiple packets are being generated with each of the packet containing a unique destination address in its header.
When a packet arrives at the packet switch, the switch uses the unique destination address that is attached in the header of the packet to determine the link onto which the packet is to be forwarded.
What is the correct order for writing the 3 dimensions for a 3D object? Here are the 3 dimensions:
Width
Height
Length
They need to be written in this format: ___________X___________X___________
Fill in the blanks.
for my sibling.
Answer:
Length x Width x Hight
Explanation:
What episode and Season of Simpsons is this
Answer:
season 9 episode 23.65 and the bases it 12
Write a C console application that will be used to determine if rectangular packages can fit inside one of a set of spheres. Your program will prompt the user for the three dimensions that define a rectangular box; the length, the width, and the height. The interior diameter of a sphere is used to identify its size. Spheres are available in the following five sizes: 4- inch, 6-inch, 8-inch, 10-inch, and 12-inch. Your program will execute repeatedly until the user enters a value of zero for one or more of the rectangular box dimensions. After obtaining the dimensions of the rectangular box, your program will call a function named getSphereSize that determines if the box will fit inside one of the five spheres. The formula for calculating the diagonal of a rectangular box is:
Answer:
#include <cmath>
#include <iostream>
using namespace std;
int getSphereSize(double length, double breadth, double height) {
double diagonal = sqrt(length * length + breadth * breadth + height * height);
if (diagonal <= 4)
return 4;
if (diagonal <= 6)
return 6;
if (diagonal <= 8)
return 8;
if (diagonal <= 10)
return 10;
if (diagonal <= 12)
return 12;
return 0;
}
int main() {
double length, breadth, height;
int sphereCounts[5] = {0};
int sphereSize;
while (true) {
// Get dimensions of the box
cout << "Enter the dimensions of the box:\n";
cout << "Length: ";
cin >> length;
cout << "Breadth: ";
cin >> breadth;
cout << "Height: ";
cin >> height;
if (length <= 0 || breadth <= 0 || height <= 0)
break;
sphereSize = getSphereSize(length, breadth, height);
if (sphereSize == 0)
cout << "The box cannot fit in any of the spheres";
else
cout << "The box can fit in the " << sphereSize << "-inch sphere";
// Increment the counter
if (sphereSize == 4)
sphereCounts[0]++;
else if (sphereSize == 6)
sphereCounts[1]++;
else if (sphereSize == 8)
sphereCounts[2]++;
else if (sphereSize == 10)
sphereCounts[3]++;
else if (sphereSize == 12)
sphereCounts[4]++;
cout << "\n\n";
}
cout << "\nNumber of 4-inch spheres: " << sphereCounts[0];
cout << "\nNumber of 6-inch spheres: " << sphereCounts[1];
cout << "\nNumber of 8-inch spheres: " << sphereCounts[2];
cout << "\nNumber of 10-inch spheres: " << sphereCounts[3];
cout << "\nNumber of 12-inch spheres: " << sphereCounts[4];
cout << endl;
return 0;
}
Explanation:
The "cmath" library is included in the c++ program. The getSphereSize function is used to return the sphere size the rectangle dimension can fit into. It program continuously prompts the user for the length, breadth, and height of the rectangle and passes the values to the getSphereSize function in the while but breaks if any or all of the variable value is zero.
The sizes of the sphere objects in inches are collected in an array of five integer values of zeros and are incremented by one for every match with a rectangle.