Answer:
a. The network will not satisfy the customers because the required addresses is 128 but what can be offered is 126.
b. 195.200.0.0/22
Explanation:
195.200.0.0/16
The number of bits to give 512 is 9
2^9=512
2^8=256 which is not up to our expected 320 customers that requires a network ip
Note we have to use a bit number that is equal or higher than our required number of networks.
The number of host per each subnet of the network (195.200.0.0/25) is (2^7)-2= 128-2=126
The network will not satisfy the customers because the required addresses is 128 but what can be offered is 126.
b. 64 customers requires 6 bits to be taken from the host bit to the network bit
i.e 2^6 = 64
195.200.0.0/22
The number of host per each subnet of the network (195.200.0.0/22) is (2^10)-2=1024 - 2 = 1022 hosts per subnet
This network meet the requirement " 64 customers want 128 addresses/customer "
Answer:
<em>Written in Python</em>
names= []
birthday = []
name = input("Name: ")
bday = input("Birthday: ")
for i in range(1,11):
names.append(name)
birthday.append(bday)
if name == "ZZZ":
break;
else:
name = input("Name: ")
bday = input("Birthday: ")
print("Length: ", end='')
print(len(names))
checknm = input("Check Name: ")
while checknm != "ZZZ":
if checknm in names:
ind = names.index(checknm)
print(birthday[ind])
else:
print("Sorry, no entry for name")
checknm = input("Check Name: ")
Explanation:
<em>The program is written in Python and I've added the full source code as an attachment where I used comments to explain difficult lines</em>
<em />
Answer:
All the above options are correct.
Explanation:
In a Microsoft Word, to apply a left indent to a selected paragraph, a user can do any of the following:
1. Use the combination keys Ctrl+M on the keyboard to insert a left indent.
2. Use the mouse to pull the left indent marker on the ruler to create a left indent.
3. Another option is to go to the Paragraph dialogue box, place a positive value in the box labeled Left.
Hence, in this case, the correct answer is that: All the above options are correct.
Answer:
node*
Explanation:
The argument 'head_ptr' is the head-pointer for the following linked list so the data type of the following argument 'head_ptr' is 'node*' in the method 'f()' because the following method 'f()' computed the linked list, but perhaps the list itself remains unaffected.
A linked list is the DS type in which that component would be a different entity. Such component of the following list is called as a node that consists of two elements
This depends on what computer and
System it's running on
