Black Friday Deal: Take $250 off any 2024 workshop with code: BF2024

Cyber Week Savings: Take $2,025 off any bootcamp or short course starting before 3/31

Cyber Week Savings, Extended: Take $2,025 off any bootcamp or short course starting before 3/31

Black Friday Deal: Take £250 off any 2024 workshop with code: BF2024

Cyber Week Savings: Take £2,025 off any bootcamp starting before 31 March

Cyber Week Savings, Extended: Take £2,025 off any bootcamp starting before 31 March

Black Friday Deal: Take $250 off any 2024 workshop with code: BF2024

Cyber Week Savings: Take $1,500 off any bootcamp or short course starting before 31 March

Cyber Week Savings, Extended: Take $1,500 off any bootcamp or short course starting before 31 March

Get ahead of 2025’s biggest tech talent shifts. Register for our December 11th webinar.

Get More Info
Blog SQL for Beginners
Article

SQL for Beginners

General Assembly
October 16, 2023

Today, we’re constantly bombarded with information about new apps, hot technologies, and the latest, most incredible artificial intelligence systems. While these technologies may serve very different purposes in our lives, many have one essential thing in common: They rely on data. They use databases to capture, store, retrieve, and aggregate data.

All of this begs the question: How do we interact with databases to accomplish this? The answer: We use Structured Query Language, or SQL (pronounced “sequel” or “ess-que-el”).

Put simply, SQL is the language of data — it’s a programming language that allows us to efficiently create, alter, request, and aggregate data from databases. It gives us the ability to make connections between different pieces of information, even when dealing with massive data sets.

Modern applications can use SQL to deliver valuable information that would otherwise be difficult for humans to keep track of independently. In fact, pretty much every app that stores any sort of information uses a database. This ubiquity means that developers use SQL to log, record, alter, and present data within the application, while analysts use SQL to interrogate that same data set to find deeper insights.

SQL at Work

A wide variety of roles can benefit from using SQL. Here are just a few examples:

  • Sales manager: A sales manager could use SQL to increase sales by comparing the performance of various lead-generation programs and doubling down on those working.
  • Marketing manager: A marketing manager responsible for understanding the efficacy of an ad campaign could use SQL to compare the increase in sales before and after running the ad.
  • Business manager: A business manager could leverage SQL to streamline processes by comparing the resources used by various departments to determine which are operating efficiently.

SQL in Everyday Life: Real-World Examples

We’re constantly interacting with data in our lives, which means that, behind the scenes, SQL is probably helping to deliver that information to us. Here are a few examples:

Extracting Data

At its most basic, SQL is about accessing data locked away in databases. Think about the last time you received a report about how your company or team is performing. This probably had some key metrics like sales figures, conversion rates, or profit margins based on data stored in a system like a customer relationship management (CRM) or eCommerce platform.

A developer or analyst, or maybe even you, used SQL to access the data needed to produce that report.

Web Applications

Think about the last time you looked up the name of a movie on IMDb, the Internet Movie Database. Perhaps you quickly noticed an actress in the cast list and thought, “I didn’t realize she was in that,” then clicked a link to read her bio.

While navigating through that site, SQL may have been responsible for returning the information you “requested” each time you clicked a link, by retreiving relevant information from a backend Database.

Synthesizing Data to Make Business Decisions

With SQL, you can combine and synthesize data from different sources and and then use it to influence business choices.

For example, if you work at a real estate investment firm and are trying to find the next up-and-coming neighborhood, you could use SQL to combine city permit, business, and census data to identify areas that are undergoing a lot of construction, have high populations, and contain a relatively low number of companies. This might present an excellent opportunity to purchase property in a soon-to-be thriving neighborhood!

Why You and Your Business Need to Understand Data Science

On a high level, data professionals collect, process, clean up, and verify the integrity of data. They apply engineering, modeling, and statistical skills to build end-to-end machine learning systems that uncover the ability to predict consumer behavior, identify customer segments, and much more. They constantly monitor the performance of those systems and make improvements wherever possible.

Looking at the field as a whole, there’s a wide array of tools available to help data experts perform tasks ranging from gathering their data to transforming it into something usable for their needs.

In our paper, A Beginner’s Guide to SQL, Python, and Machine Learning, we break down these three prevalent technologies transforming how we understand and use data. The first two are programming languages used to gather, organize, and make sense of data. The last is a specific field in which data scientists and machine learning engineers, using Python and other technologies, enable computers to learn how to make predictions without programming every potential scenario.

These skills have surprising uses beyond data, bringing delight, efficiency, and innovation to countless industries. They empower people to drive businesses forward with a speed and precision previously unknown.

Reach out today to learn how to boost your business and career with data.

LET’S CONNECT

What’s your reason for connecting? *

By providing your email, you confirm you have read and acknowledge General Assembly’s Privacy Policy and Terms of Service.