Answer:
The data can be safeguarded using key escrow procedure.
Explanation:
Key escrow basically means to store the cryptographic key in an "escrow" by a reputable trusted third party. The copy of the encryption key is kept with the third party. In case the cryptographic key gets lost or destroyed, then the key escrow service helps to access the encrypted data. It also manages the access control to the key in case the key gets lost. So this way in case of security breach at GearOn the key escrow service can be used to re-implement or access the key easily.
Answer:
List=[['Computers','IT','Programming'],['Maths', 'Algebra', 'Geometry']]
i=0
k=0
for i in range(0,2):
print("Category:"+List[i][0])
for k in range(1,3):
print("\t"+List[i][k])
Explanation:
The required program is as above. We have used here a multidimensional list. The 0 of each row has the category,and rest are sub categories. The program above has limitations but is good enough to explain the fundamentals required.
Answer:
Option D is the correct option.
Explanation:
The following option is correct because the lead alteration from number to text and the number to text types of data will reconstruct the important number of the app builder to accomplish those steps which is extra to continue to have that functionality which is in the existence. That's why the app builder has to be reconstructed the types of data for the custom fields.
Answer:
def printWordsLines(filename):
file = open(filename, 'r')
lines = 0
words = 0
for line in file:
line.rstrip()
lines += 1
word = line.split(' ')
words += len(word)
print('the file ',filename,' contains ',words,' and ', lines, ' lines')
file.close()
printWordsLines('words')
Explanation:
the file used was words in txt format and its contents are given as follows
hello aamir jan khan
parallelogram abdullah
anaconda ali
pycharm notebook
Answer:
Following are the program in the Python Programming Language.
#get input from the user
x = float(input())
#get input from the user
y = float(input())
#get input from the user
z = float(input())
#find the average
average =(x+y+z)/3
#find the product
product = x*y*z
#print the result in given format
print('\n%d %d'%(average,product))
#print the result in given format
print('%0.2f %0.2f'%(average,product))
Explanation:
<u>Following are the description of the program</u>:
- We set three variables 'x', 'y', and 'z' that accept float type values from the user.
- Then, set variable 'average' that store the average of the following values that is given by the user.
- Set variable 'product' that store the multiplication of the following values that is given by the user.
- Finally, we print the average and the product in the following format that is given in the statement.
