Answer:
okay believe your heart and read questions properly do problems
Explanation:
I hope you understand bye
The first example is an IPv4 address. Because IPv4 is only 32 bits long there are only about 4 billion addresses available. To expand the address space IPv6 came into existence and your second example is an IPv6 address.
Answer:
input device, data capture device
Explanation:
A digital pen is an input device that can be used for data capture.
Answer:
<u>Explanation:</u>
.LC0:
.string "Enter a alphabet "
.LC1:
.string "%c"
.LC2:
.string "The next alphabet is %c"
main:
push rbp
mov rbp, rsp
sub rsp, 16
mov edi, OFFSET FLAT:.LC0
mov eax, 0
call printf
lea rax, [rbp-5]
mov rsi, rax
mov edi, OFFSET FLAT:.LC1
mov eax, 0
call scanf
movzx eax, BYTE PTR [rbp-5]
movsx eax, al
add eax, 1
mov DWORD PTR [rbp-4], eax
mov eax, DWORD PTR [rbp-4]
mov esi, eax
mov edi, OFFSET FLAT:.LC2
mov eax, 0
call printf
mov eax, 0
leave
ret
OUTPUT
Enter a alphabet C
The next alphabet is D
Explanation
Here the logic used is first we converted the input character to its corresponding ASCII value and we added one to it and again it is converted back to corresponding alphabet and displayed
Question Completion with options:
The options are :
a. 1000
b
. 10000
c. 100
d. 5000
Answer:
The minimum number of public IP addresses needed to expose a service running on 10,000 IoT devices having private IP addresses is:
a. 1000
Explanation:
This means that one public IP address can expose 10 Internet of Things (IoT) devices with private IP addresses. This will make the load lighter and avoid conflicts. In addition, private IP addresses promote access on a network without taking up the limited public IP address space. All IoT devices must have their unique IP addresses to communicate through a network. No two computers or devices on the network should have the same IP address.