For a long time, schools have placed a large emphasis on STEM education (Science, Technology, Engineering, and Mathematics). These four fields are combined in STEM education, an interdisciplinary method of teaching. The results showed that the research has been increasing in stem education which indicates that the importance of stem education is becoming clearer with time (Li et al., 2020). Our educational system is reflected in our society, particularly in our art (thesiswritinghelp, 2022). Creativity in the stem as well as invention and problem-solving, can all be improved in students, according to many educators and academics, when the arts are included in STEM education.
The purpose of this blog is to talk about the advantages of introducing STEAM which will avoid you to say do my homework statistics. And how it can benefit kids, instructors, schools, and society in general. But first start with the definition of steam.
What is STEAM?
The acronym STEAM stands for Science, technology, engineering, math, and the arts. Recognizing the value of creativity and innovation. Stem and the arts are mixed and make steam. In terms of scientific discoveries and technological progress.
STEAM education isn’t a new concept; it gained importance in the last years of the 1990s. However, in recent years, it has drawn greater attention. According to the writer of the Best assignment help service in STEAM education, educators promote innovation and creativity in the workplace.
The Value of STEAM Education
The value of STEAM education cannot be emphasized, particularly in preparing students for real-world difficulties. Students are more adaptive to a variety of settings and problems because of STEAM education’s integrated and comprehensive approach.
Advantages of STEAM education
The following are the most significant advantages of STEAM education:
Collaborative approach
The pupils are encouraged to work together on projects rather than compete with one another. They gain the information, abilities, and ability necessary to contribute to the achievement of group objectives and are equipped to function as a team.
Promotes creativity
Students are urged to create their own strategies for resolving issues or finishing projects rather than just adhering to predetermined instructions or stages. The STEAM curriculum highlights the concept that there are numerous ways to solve problems. It allows pupils to employ their imagination as well as their technical knowledge.
Enhances social skills
The STEAM curriculum improves kids’ emotional intelligence and social abilities because it takes a holistic collaborative approach. They learn how to collaborate with others, express themselves, and become more socially flexible. They will be able to cope with people of varied personalities and cultural backgrounds. This approach also fosters empathy, leadership, and friendship.
Critical thinking skills
A fresh set of information’s factual and logical validity must be evaluated in order to generate a logical and well-informed perspective about various topics. This process is known as critical thinking. It is all about removing irrelevant and deceptive information. It is crucial to be able to transcend personal prejudices and avoid illogical dogmatism when developing critical thinking abilities.
Increases curiosity
The desire to learn more about a variety of subjects is fostered in students. They have received training to look deeper into the mechanisms and causes of how things operate. This is the line that separates the humanities from the natural sciences.
Real-world Applications
Students are taught not just theoretical and academic principles, but also how to apply their knowledge and abilities in the real world. Even abstract mathematical topics, such as home budgeting, can be taught to students. Skills in computation and reasoning The incorporation of the arts into science-based curricula improve students’ computational and logical abilities. Aside from technical issues, other elements are taken into account.
For instance, addressing the issue of climate change calls for a multidisciplinary approach while also taking important socioeconomic and geopolitical factors into account. As a result, when addressing problems, “computation” must take into account various subtle and indirect variables.
How to Incorporate Arts into STEM
Including the letter “A” in STEM holds potential, but how can we do so authentically? Here are some ways to incorporate the arts into STEM:
- Focus
First, decide whether to answer a question or solve a problem. Always keep in mind that it’s crucial to demonstrate how the chosen issue or question directly links to the foundational STEM disciplines and how it will be applied to the requirements of the arts.
- Detail
During this second stage, it is important to pinpoint the elements contributing to the issue or impeding the discovery of the solution. You will start to experience the advantages of cross-disciplinary teamwork as insights on why the issue occurs are made since knowledge, skills, and experiences from other fields will be used.
- Discovery
Research and focused teaching are essential throughout the discovery stage. Students must investigate what real-world solutions are now failing and what additional solutions are being created for the problem at hand. In order to discover a solution at this point, you as a teacher must identify the procedures and skill gaps that need to be filled.
- Application
This is the stage at which your students will implement and test hands-on solutions. It’s time to implement their solution once they’ve finished evaluating the available options and are certain of what still has to be done. It is critical that they employ their past skills, experience, and knowledge, as well as what they were taught during the discovery stage, to accomplish this.
Projects based on STEAM
If you believe in the importance and utility of STEAM education, you’ll be pleased to hear that we have a variety of STEAM-based resources produced by our in-house educators. Using these materials is also an excellent approach to introducing STEAM into the house. We have compiled a brief list below to provide you with some ideas and inspiration, covering all grade levels:
- How Germs Spread Science Experiment
Teach kindergarteners the vital knowledge of how germs spread through human interaction, which will have them thinking scientifically and critically from an early age.
- STEAM Rainforest Terrarium Activity & Prompt Card Pack
This first-grade exercise includes directions for building your very own rainforest terrarium. It will impart knowledge about ecosystems, weather patterns, and much more in an experiential, useful, and enjoyable way.
- Download the Prompt Card Pack and Superhero STEAM Activity for Free
With the help of a few common household items and tools, this project for second graders will expose them to several fundamental scientific concepts.
- STEAM Activity for Astronaut Training
What child doesn’t want to be an astronaut? With this fantastic exercise, third graders can now! Each student will finish the program with their very personal astronaut qualification, which combines several disciplines into one enjoyable activity.
- Bridges: Structural Planning, Design, and Evaluation STEAM Booklet
This may appear to be a simple engineering-based exercise for fourth graders, but that is the appeal of STEAM! This is an excellent example of how different subjects intersect and rely on one another.
- Mold Growth STEAM Activity
After learning about the mysteries of microbiology, fifth graders will view food differently! An intriguing pastime that will pique your interest in the tiny.
Conclusion
Finally, there are many advantages for students, instructors, schools, and society when the arts are incorporated into STEM education. It provides teachers with compelling teaching approaches, professional development opportunities, and improved classroom dynamics. Improved innovation, better community ties, and more economic growth can all benefit schools and society. Even if there are obstacles to STEAM education implementation, it is essential for educators and politicians to understand its importance and take steps to do so. We must invest in STEAM education if we want to ensure the future of our workforce and society.
Reference List
Li, Y., Wang, K., Xiao, Y., & Froyd, J. E. (2020). Research and trends in STEM Education: A systematic review of journal publications. International Journal of STEM Education, 7(1). https://doi.org/10.1186/s40594-020-00207-6
TWH., (2022). HOW TO MAKE OUR EDUCATION SYSTEM STRONG? Online Available at https://thesiswritinghelp.com.pk/make-education-system-strong/ [Accessed on 18th June 2022]