num = float(input("Enter a number: "))
num1 = int(num)
print(num - num1)
I hope this helps!
The answer is vocational information center as this area or website provides a person or a student to explore careers that could be suitable to his or her liking and to show careers or professions' role as they work. This website is a way of educating an individual of having to provide informations regarding about careers.
The answer is 2 frequencies.
A Full-Duplex QAM 64 K Modem uses two frequencies. One frequency is used for upstream and the other for downstream. A variety of common QAM forms are available and include, 16 QAM, 32 QAM, 64 QAM, and 256 QAM. For example, for domestic broadcast use, 64 and 256 QAM are used for cable modem and digital cable TV. The modulation scheme for this modem uses both amplitude and phase.
Answer and Explanation:
//buchi
Var firstNumber=prompt("please enter first number");
Var secondNumber=prompt("please enter second number");
Var thirdNumber=prompt("please enter third number");
Var numberTotal=firstNumber+secondNumber+thirdNumber;
Function calculateNumbers(){
return numberTotal;
return int(numberTotal/3);
return firstNumber*secondNumber*thirdNumber;}
Console.log(calculateNumbers());
Answer:
It is A: Packet metadata is used to route and reassemble information travelling through the internet.
Explanation:
Step 1: The Internet works by chopping data into chunks called packets. Each packet then moves through the network in a series of hops. Each packet hops to a local Internet service provider (ISP), a company that offers access to the network -- usually for a fee
Step 2: Entering the network
Each packet hops to a local Internet service provider (ISP), a company that offers access to the network -- usually for a fee.
Step 3: Taking flight
The next hop delivers the packet to a long-haul provider, one of the airlines of cyberspace that quickly carrying data across the world.
Step 4: BGP
These providers use the Border Gateway Protocol to find a route across the many individual networks that together form the Internet.
Step 5: Finding a route
This journey often takes several more hops, which are plotted out one by one as the data packet moves across the Internet.
Step 6: Bad information
For the system to work properly, the BGP information shared among routers cannot contain lies or errors that might cause a packet to go off track – or get lost altogether.
Last step: Arrival
The final hop takes a packet to the recipient, which reassembles all of the packets into a coherent message. A separate message goes back through the network confirming successful delivery.