Answer:
The answer of the the following question are 0(n^2)
The total number of multiplication is 2
And the total number of addition is 1
Explanation:
Let the size of the input is the degree of the polynomial = "n"
Than the number of the multiplications depends on "n"
Let the number of multiplication = M(n)
Let the number of addition = A(n)
1): Solution-
M(n) = n∑_{i=0} i∑_{j=1} 2
= 2 n∑_{i=0} i∑_{j=1}
= 2 n∑_{i=0} i-1+1
= 2 n∑_{i=0} i
= 2 * n*(n+1)/2 = n*(n+1)
= n^2 + n ∈ 0(n^2)
2): Solution for addition-
A(n) = n∑_{i=0} i∑_{j=1} 1
= by solving this from the same way it leads to
= n^2 + n and n^2 + n ∈ 0(n^2)
Answer:
The solution code is written in Python
- def largerThanN(myList, n):
- output = ""
-
- for x in myList:
- if(x > n):
- output += str(x) + " "
-
- print(output)
-
- l = [5, 12, 11, 4, 56, 32]
- n = 15
- largerThanN(l, n)
Explanation:
Firstly, create a function largerThanN that accepts two arguments, a list (myList) and a number (n) (Line 1).
Next, create a output variable to hold the string of numbers in the list that are greater than the input number n (Line 2).
Create a for loop to traverse through each number in the list and then check if the current x is bigger than n. If so concatenate the x to output string along with a single space " " (Line 4 -6)
After the loop, print the output string (Line 8)
We test the function by using a sample list and n = 15 (Line 10 - 12). The program will display 56 32 .
Answer:
Centralized Processing
Explanation:
Centralized processing was developed to process all of the data in a single computer, and since the first computers were stand-alone with all input and output devices in the same room, only the largest organizations could afford to use centralized processing.
Answer:
Speaker, Keyboard, Monitor, Mouse
Explanation:
A peripheral device is used to put input into (or receive output from) a computer. Parts of a computer wouldn't be considered peripheral.
Answer:
I think no...Brainly might not allow unique text's.
