There is one skill that can transform your child from a passive user of digital media to a creator of it. That skill is coding, and that is not all it can do. Getting your children to code has multiple advantages; improves their career prospects, makes them more creative, improves their math skills, and makes them better students overall.
Coding Kids Learn a New Language
You might have heard that exposing children to different languages while they are young gives them better cognitive abilities, including memory, focus, and brain function.
Coding has an entire language of its own where every letter is represented by its unique combination of 1’s and 0’s. Children who code have all the advantages of bilingual children.
The language of programming is called software and children can learn programming languages like Python, JavaScript, Java, and C#. C++ and Python are most commonly used in Robotics.
Coding Kids become Better Thinkers
Children who code are better at thinking because they learn logical thinking as they acquire and apply the skill of coding. They learn how to solve problems by practically applying decomposition which is part of computational thinking.
Computational thinking means taking care of a bigger problem by breaking it into smaller problems that are easier to handle.
Logical thinking is a life skill that children will find applicable in school and later on in life.
They use their creativity to not only think of ideas but also turn them into real solutions. These are in-demand skills that help to future-proof your child’s career prospects.
Coding Kids get Better at Math
Kids who code learn the language of math. They improve their ability to calculate and apply logic to situations. This makes math much easier for them. They organize and analyze data in a better way. The best thing about it is that they don’t even realize that they are practicing math.
Coding is a Vital Skill for Kids
STEM jobs are growing at a faster rate than ever before, and most STEAM jobs are in computing. Even with all this opportunity, only 8% of STEAM graduates have studied Computer Science.
What this means for your child is that if they learn to code, they are learning a vital, in-demand skill that helps set them up for a better future.
Your child has a much higher chance of getting into a rewarding STEAM career when they have some coding skills.
Besides jobs and careers, coding skills put your child ahead of their peers when it comes to getting internships and college admissions. College recruiters favor students who possess extra skills, and coding is one of them.
Coding Kids Nurture their Creativity
Programming helps children apply their creativity as well as logic. This is because programming is a creative endeavor.
They enjoy the challenge and reward of building real things.
Children learn to express themselves by making video games, creating the kind of apps and websites they want to see, and turning their imagination into reality.
Interested in enrolling your child in a STEAM program?
Check out The STEAM Generation – a STEAM enrichment program that provides hands-on classes, camps, and workshops for children 4-14.
This project is a great idea for a science fair.
Grade Level
4-5th Grade
Difficulty Level
Easy
Cost
Minimal
Safety Issues
None
Material Availability
All necessary materials are readily available.
Project Time Frame
2 weeks
Objective
This project is a study in density.
The goals of this project are:
To discover the causes, effects and practical applications of density. To encourage technological advances.
Materials
Computer with internet access Color printer Digital camera Typical office/craft supplies (such as paper, pens & poster-board)
2 unopened diet soda cans
2 unopened regular soda cans
1 unopened seltzer water can
1 clear large storage bin
Water
All materials can be found in your home or at local stores.
Introduction
Density is a measurement that compares the amount of matter an object has to its volume. Objects that are lighter density than water will float.
Research Questions
What causes buoyancy?
How is buoyancy measured?
What kinds of cans will float and why?
How are the principles of buoyancy useful to us?
What is the difference between diet and regular soda?
Terms and Concepts to Start Background Research
Buoyancy Density Equilibrium Gravitational force
Weight
Marine Engineer
Research related materials (see bibliography below and search terms listed above)
Test whether soda cans sink or float.
Photograph all the cans with the labels showing.
Fill a large container with water. The water should be deep enough so you can easily tell which cans are floating and sinking.
Slowly place each can into the water one at a time.
Place each can on its side in the water so air is not trapped at the bottom of the can.
Observe the cans as you place them in the water. Which ones floating? Which ones sink?
After all the cans are in the water, try to figure out why some of the cans float and others sink.
Analyze the data.
Interpret your findings in a detailed report.
Include interesting photos in your science fair display.
Also display your cans and bin with water.
Bibliography
Wiki searches: “Density” and “Weight.”
Internet searches of your own choosing: Search for any of the terms listed above (or make up your own phrases to search), and click on any results that interest you. Have fun surfing the net!
Does your child have an interest in STEM/STEAM? Check out more of our hands-on project based learning programs such as our classes and camps.
We can teach children to internalize the same practices that engineers and scientists use to investigate the world, build models, develop theory, and design systems while they are still young. Kids love exploring the world around them and figuring out how things work.
There are so many different types of engineers. Engineers don't just build machines and structure; they design processes that help solve the world’s problems.
What does it mean to Think like an Engineer?
Engineers are creative problem solvers. They combine both science and art, and they think both creatively and analytically. They solve difficulties quickly and think broadly. Adding Arts to Science, Technology, Engineering makes STEAM which is better than STEM.
Engineering is essential as it challenges children to apply basic principles, and learning is enhanced. Engineering activities build on real-world problems and technologies. They help children to see how science and math play out in their day-to-day lives.
An engineer designs and builds complex systems, machines, products, and structures. As future engineers, children are keen to learn why and how things work. Before anything is made, it is first planned out or engineered.
Problem Solving
Problem solving is the process of solving complex or challenging issues. The problem is defined, the cause of the problem determined, alternative solutions identified, and implementing the solution. Children should learn mechanisms of identifying issues, figuring them out, and determining how to fix them.
Critical Thinking
Critical thinking is analyzing and evaluating an issue to form your own judgment. Critical thinking enhances children’s capacity for the presentation skills and language.
Thinking systematically enhances the expression of ideas and comprehension. Critical thinkers solve problems systematically instead of using instinct or intuition.
Peer Collaboration
Peer instruction or learning is collaborative learning in pairs or small groups that allow students to find solutions to problems or discuss concepts together. Cooperative learning is essential as students from various backgrounds, upbringing, and races work together. Children learn from others and get to hear alternative opinions.
The kids should know their team's roles, be good collaborators, loyal, motivate one another, appreciate their peers, avoid unnecessary communication, and use technology.
Peer-to-peer learning helps students to develop deep thinking. Group learning helps children to improve oral communication, high-level-thinking, leadership skills, and self-management.
Project-Based Learning
In Project Based Learning, students apply the knowledge they acquire in engaging classroom experiences. Students should actively explore challenges and real-world problems; develop skills to live in a knowledgeable, highly technological society.
Through these skills, the children become managers and directors of their learning process. A skilled teacher mentors and guides them to higher scales in learning.
In project-based learning, children work with laid goals, but in problem based learning; the children set the outcomes and set the learning goals.
Hands-on-Learning
Children learn by doing; not just listening to instructors. They are involved in creating something or solving a problem. Hands-on-learning develops critical skills and brings real-world experience to the kids. They use equipment and materials used on the job. Teaching your kids to think an engineer is all about preparing them to understand how things work, pay attention to their environment, think critically, and find better ways to solve problems. These are all skills that you can reinforce in the course of their day-to-day learning.