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Router. A type of computer that forwards data across a network. TCP. Transmission Control Protocol - provides reliable, ordered, and error-checked delivery of a stream of packets on the internet. TCP is tightly linked with IP and usually seen as TCP/IP in writing. DNS. The service that translates URLs to IP addresses.
AP Biology Course and Exam Description. This is the core document for this course. It clearly lays out the course content and describes the exam and the AP Program in general. The CED was updated in the summer of 2020 to include scoring guidelines for the example questions. PDF.
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AP Biology glossary of key terms with definitions, must-know facts, and related terms you need to know for your exam. All Subjects. Light Unit 1 – Chemistry of Life ...
- Overview
- Sending streams of 1s and 0s
- Bit rate
- Bandwidth
- Latency
- Physical connections: Ethernet, Fiber, and WiFi
- Internet speed
The Internet is a network of computers communicating with each other. When humans communicate with each other, we use words and body language. When computers communicate with each other, they use 1s and 0s. That's easy for computers since they already represent all their data in binary.
If you don't remember binary data, now is a great time to review the first unit on digital data representation.
When computers need to internally represent the number 5 (101 in binary), they can use three wires to represent the 3 bits: one wire on, one wire off, one wire on.
If a computer wants to send the number 5 to another computer, they can't use as many wires as they want. In fact, they may only have a single wire to send information over. Instead, they can send the number 5 over three time periods: first sending an on pulse (and waiting), then sending nothing (and waiting), then sending an on pulse.
Computer networks can send bits very fast. We measure that speed using the bit rate, the number of bits of data that are sent each second. The earliest Internet connections were just 75 bps (bits per second). These days, connections are more often measured in Mbps (megabits per second).
A megabit is huge: 1 million bits! A 10 Mbps connection transfers data at 10 million bits per second.
That's one bit every 100 nanoseconds (0.0000001 seconds).
We also measure bit rate in smaller units like kilobits (1 thousand bits) or much bigger units like gigabits (1 billion bits) and even petabits (1 quadrillion bits).
your understanding
When I was growing up, our Internet connection was 56 Kbps (kilobits per second). How many bits per second could that transfer?
We use the term bandwidth to describe the maximum bit rate of a system. If a network connection has a bandwidth of 100 Mbps, that means it can't transfer more than 100 megabits per second. Fortunately, that's still a lot!
Ever heard the term "broadband Internet"? That refers to a connection with a minimum bandwidth of 256 Kbps. That's enough bandwidth for basic Internet use like checking emails and reading websites, but not quite enough for watching online videos. As of 2016, only 40% of people in developing nations have access to even broadband Internet.
Another way to measure the speed of a computer network is latency. You might guess what that means from the word itself: latency measures how late the bits arrive. To put it in more formal terms: latency is the time between the sending of a data message and the receiving of that message, measured in milliseconds.
We typically measure the "round-trip" latency of a request. Let's walk through a real example to see what that means.
My computer sends a message to the Google server. 30 milliseconds later, Google receives the message. 40 milliseconds later, my computer gets an acknowledgement from Google that it received the message.
That's a total round-trip latency of 70ms. The latency depends on a number of physical factors: the type of connection from my computer to Google, the distance from my computer to the Google servers, and the congestion in the network (which may mean my request has to wait in line).
The Internet is a series of computers connected to each other. But what does that physical connection look like? It depends on the needs of the connection and the size of the network.
Ethernet cables are a common type of connection made up of twisted copper wires. Electricity pulses through them at a bit rate up to 400 Gbps. Ethernet cables are used in networks as small as LANs (local area networks) like a company's office or as large as WANs (wide area networks) like an entire country.
If you're in a computer lab or next to a modem, you can probably find an Ethernet cable just like this one:
Fiber optic cables send pulses of light instead of electricity, and they can send terabits per second. They connect computers across the oceans, so that we can quickly send data across the world. As they become less expensive, they're becoming increasingly common in city-wide networks as well.
Wireless connections don't involve any wiring at all—at least at first. A wireless card in the computer turns binary data into radio waves and transmits them through the air. Those radio waves can't travel very far: 75-100 feet in a place like an office building that's filled with all sorts of obstacles, or up to 1000 feet in a wide open field.
The waves are hopefully picked up by a wireless router, also called an access point, which converts them from radio waves back into binary data. Wireless access points are connected to the rest of the network using physical wiring, like ethernet or fiber cables.
Speed is a combination of bandwidth and latency. Computers split up messages into packets, and they can't send another message until the first packet is received. Even if a computer is on a connection with high bandwidth, its speed of sending and receiving messages will still be limited by the latency of the connection.
You can measure the current speed of a network using an Internet speed test, a website that downloads and uploads data while tracking how quickly the data is transferred.
Here are the results from an Internet speed test from my home laptop:
The latency (also called the ping rate) was just 18ms. That's fast enough for most multi-player online games.
The download bit rate is 39 Mbps and the upload bit rate is 5.85 Mbps, significantly less. Actually, that's expected. Internet providers often support a much faster download speed than upload speed, because Internet users spend much more time downloading data (reading articles, watching movies) than uploading data (writing blog posts, submitting forms).
🔍 What's the speed of your Internet? What bandwidth does your Internet provider promise? What type of connection are you on? This is a great opportunity to get a deeper understanding of the physical infrastructure you use every day.
Oct 29, 2019 · The internet traces its roots to a US defense department project in the 1960s born out of (pdf) the Cold War, and a desire to have armed forces communicate over a connected, distributed network ...
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Jan 31, 2024 · Home broadband use over time. The share of U.S. adults with high-speed broadband service at home increased rapidly between 2000 and 2010. Even since that rapid growth, increasing shares of Americans have access to broadband internet. Today, eight-in-ten U.S. adults say they subscribe to a broadband internet service at home.
