Answer: The function that is NOT performed at the layer 6 of the OSI model from the options presented, is the first one: Routing of the message.
Explanation:
In the OSI model, Layer 6 is called the Presentation Layer, and is basically responsible of taking the message forwarded by one Application Layer protocol (like HTTP) and formatting it a way that can be uniquely decoded at his intended destination.
This processes can include Encryption and Compression, among others.
So, Layer 6 is not responsible for routing the message (this is a function of the Layer 3, the Network Layer).
Answer:
The correct option is;
A. Leadership
Explanation:
Leadership skills are positive soft skills which are useful in pulling other people together in other to achieve a shared objective or goal. With leadership skills involves the leading or ability to drive others to accomplish assigned task according to schedule.
In several instances, positive soft skills are also essential as leadership skills
Examples of leadership skills includes;
Being able to make timely decisions
Problem solving
Being dependable
Creativeness
Integrity.
Answer:
10100
Explanation:
First digit is 16 followed by 8, 4, 2, 1. With these available, you want to use digits 16 and 4 to make 20. Answer is therefore 10100. You can also use a flippy-do online.
Answer:
The Pointer P becomes a dangling pointer.
Explanation:
int calculate(){
int *p = (int*)malloc(10);
*p = 10;
return p;
}
In this program, the scope of p is only with the calculate function block. Hence, once the compiler comes out of the function, it can no more access the pointer p or the memory location p is pointing to. To overcome the dangling pointer, we need to declare p as static, so that the scope of p is throughout the program.
Answer:
It can be so frustrating that the entire planet can't just agree on one system of measurement, whether it relates to measuring distances, weights, temperatures, etc (for the record...same goes for which side of the road everyone drives on). If every country used the same units of measurement, then these formulas would be useless and obsolete, but until then, it might be a good idea to understand how to convert miles to kilometers, and vice versa. If you're a Python developer, then knowing how to write the formulas in Python might be especially useful. Keep reading to see just how it's done.
Converting miles to km isn't especially difficult. To do a rough estimate of the conversion in your head, all you really need to remember is that a mile equals about 1.6 kilometers (or that a kilometer is approximately 2/3 of a mile). When trying to find the correct conversion using a formula, we must use the more precise conversion factor, which is equal to 0.62137119.
To convert miles to kilometers, the formula is very straightforward. All you need to do is divide the number of miles by the conversion factor. To see how it would look written out in Python, check out the example below:
Explanation: