What Is An Example Of A Static IP Address?
An important and significant aspect of computer networking and internet connectivity is the internet protocol (IP) addresses. An IP address acts as a unique identifier and enables devices to communicate effectively on a network or via the internet. Among the most commonly used types of IP addresses is the static IP address. But, did you ever wonder what example of a static IP address looks like?
How Does a Static IP Address Work?
Before looking at an example, it’s essential to understand what a static IP address does. A static IP address is a permanent IP address assigned to a device connected to a network. These addresses remain the same permanently, unless changed manually.
Types of IP Address Ranges
IP address ranges are categorized into the following types:
• Class A: 1 – 126
• Class B: 128-191
• Class C: 192-223
• Class D (Multicast): 224-239
• Class E (Reserved): 240-254
Static IP Address Classifications
A more precise classification of static IP addresses includes:
• [Public Static IP Addresses: Assigned by Internet Service Providers (ISPs) specifically for use on the World Wide Web.
• _Private Static IP Addresses: Used for local network setup, and not routed from the public internet.
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What Is an Example of a Static IP Address?
An example of a static IP address consists of four numbers, separate by dots, each ranged from 0 to 255. Here are three examples:
• 172.16.0.1
• 212.92.213.4
• 85.15.33.255
These examples could be either public or private static IP addresses. We’ll focus on a residential static IP address.
A Residential Static IP Address
A residential static IP address, such as 76.89.22.123, is typically _ assigned by_ an Internet Service Provider (ISP) and utilized by a specific residential users or businesses. In practice, it might look like a utility meter in various settings:
• Online accounts and services: Each digital account requires a unique digital address. In the given example, 76.89.22.123 would serve as a separate account login for email provider, social media platforms or cloud storage services.
When accessing the internet using wired or wireless connections, connected devices, such as servers, printers, and NAS (Network-Attached Storage) devices, may choose to assign themselves with addresses like 76.89.22.123 (192.168. X.XX) as part of the router-controlled local network.
For reference, consider the table format:
| Device/Endpoint | Static IP Address [192.168.XXX.XXX] | Subnet Mask | Gateway IPs |
|---|---|---|---|
| Laptop | 176.89.22.123 | 192.168.0 | 192.168.0.1, 8.8.8.8, 4.2.2.4 |
| NAS-device | 192.168.1.34 | 255.255.255 |
Keep in mind, we’ve just touched upon common static IP address formats based on classless inter-relationship and domain routing. Now, you should understand one example of a static IP address: 76.89.22.123.
Pros & Cons of Static IP Address
Now that we are familiar with the format let’s consider the pros _and cons,**_ of static IP addressing:
• Easily managed networks: Assign predictable and static IP addresses reducing complexity.
• Permanent connectivity: Static IPs persist, allowing devices to adapt and configure for remote workers or services.
• Traffic control and analytics: Easy tracking and statistics of data transfer via identified IP addresses.
• Limited IP availability. Due to IPv6 adoption and limited addresses are assigned, the risk increased for potential IP exhaustion as devices become more ubiquitous.
To further examine, static IP addresses create permanent or, and we continue with an overview.
Additional aspects include security risks regarding permanent IDs if no password protocols or two-factor authentication put in place.
We wrap up the exploration with questions: Can a device such as a router change addresses, and are public residential IP addresses different?