Appearition Insights with Jaime Donally from ARVRinEDU

In this interview, Appearition team members Mark Hillebrand and Brittney Smith sit down on the couch for an e-coffee with Jamie Donally from ARVRinEDU, to chat about immersive technology in education and the future of learning.

Jaime Donally is a former maths teacher turned instructional technology specialist. Jaime is passionate about providing new immersive learning experiences to staff and students. She provides staff development and training on immersive technology as an EdTech consultant.

 

If you would like to hear more from Jaime Donally and her work in the education industry you can find Jaime at:

ARVRinEDU Twitter Youtube

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The Difference Between STEM & STEAM Education

Understanding the difference between STEM AND STEAM

The combination of the subjects Science, Technology, Engineering, and Maths are collectively referred to as the acronym STEM. On the other hand, STEAM is the acronym for the combination of Arts in addition to all subjects from STEM i.e. Science, Technology, Engineering, Arts, and Maths. 

Arts refers to subjects such as humanities, dance, language, drama, music, design, visual arts, and media studies. The primary contrast between STEM and STEAM, is that STEM solely centres on the subjects of science and the ideas of logic. While STEAM researches similar ideas, this technique does this through a practical approach to learning strategies utilised with the help of creative ways.

This generally appears as though students are working cooperatively to make an engaging concept or article that depends on the comprehension of a STEM idea. For example, the arithmetic of the parabola used to make compelling symbolism through artwork.

The idea of learning through the STEAM technique is not a new concept. Leonardo Da Vinci, convinced us about the significance of joining science and creativity to make new revelations. In a similar manner, Indigenous Australians have a long-standing convention of passing on various ideas and scientific knowledge in the form of songs and music. This is a classic example of the fact that science, combined with the creative arts, can result in wonders!

While both these methodologies follow a different approach, it is important for both students and educators to study and understand how each works.

Understanding the importance of STEM

Science and technology lead to the creation of new items and distinctive procedures that aid in a nation’s economy. The innovation with science education banks upon a robust data base in the realm of understanding the basics of STEM. Unmistakably, most occupations in the upcoming years will require an individual to possess an essential comprehension of maths and science. In spite of looking at these convincing realities, the average scores in mathematics and science among students are lingering behind others. Let us try to understand how STEM training can be extremely essential for the youth of any nation.

Innovation  and science is constantly venturing into each part of our lives on an everyday basis – making STEM a significant subject. Science lies in every field and occupation of our lives along with each action that we take in our day to day living. By introducing students to STEM while presenting them opportunities to analyse and investigate the knowledge and ideas related to STEM, they will propagate a new sense of enthusiasm for it.

Educational programs that are based on STEM have real circumstances to aid the students in the learning process. STEM offers a hands-on and minds-on experiences to the students. Making maths and science, fun and fascinating encourages students to enjoy education and explore a new kind of learning.

Understanding the importance of STEAM

STEAM training in schools offers individuals a chance to learn and create – utilising critical thinking and practical applications. These overall abilities are essential to growing a workforce that is prepared for the future that understands and owns the capability of tackling complex situations occurring in real life. This technique leads us to ’22nd-century skills’ – that are predicted to be around connection, care and culture.

There are a myriad of opportunities to provide hands-on learning coming up in schools and institutions around the world. These are better known as “maker spaces”. Each of these opportunities usually focuses on combining the skill of discovery, along with the learning process. They encourage the utilisation of science and tech assets, in order to achieve different phenomenal results, such as data art and gaming.

It’s fascinating to see such a significant number of STEAM ideas appearing in current mainstream society, motivating trust – especially among young women. Elements like Shuri’s character in the film Black Panther – the wise, imaginative and lively technologist – encourages individuals to move past the notions related to STEM embedded in history and embrace new ages of interdisciplinary pioneers.

Similar creative examination and assets completely understand the association between science, technology, engineering, arts, and mathematics, on the impact they have on one another. Educators who have adapted the STEAM learning technique usually observe the students discovering certain connections among various concepts. They also notice that the problem-solving skills of their students have enhanced visibly. Moreover, they strongly witness their students being actively engaged in the whole learning process, which is usually reflected with their expressions caught in experiencing varied moments of joy. 

If we adopt the learning technique of STEAM, we can challenge assumptions that all these territories of learning are independent and move ahead of the “I am acceptable at maths and science, so I am not imaginative” perspective. This will transform the way in which the world is perceived and generate a new thought process on being connective, multifaceted and comprehensive, along with an assorted variety of ideas, expressions, and thoughts. After all, that is exactly how things and situations work in real life.

Conclusion

Both STEM and STEAM are learning techniques that have been used by previous generations and will be embraced by generations to come. The most critical aspect of choosing between the two is understanding the needs and capabilities of an individual while making the right decision accordingly. Choosing the right approach will naturally lead towards a successful futuristic learning experience.

Find out how others are using our Immersive Learning solutions and access your free EducART trial here>> 
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Benefits of Immersive Technology in Education

[avatar user=”Prosper” size=”thumbnail” align=”left”]Prosper Cumps-Ruelle, Developer, Appearition[/avatar]

In the past few years, many new types of technologies have emerged to help us embrace new ways to learn, view content and interact with it. By consequences, existing technologies and techniques are getting reviewed for their efficiency, reliability and cost.

Some game changing innovations that can revolutionize learning and teaching are the three main immersive technologies: Augmented Reality (AR), Virtual Reality (VR) and Mixed Reality (MR).

When it comes to studies, VR and MR can make a difference in a student’s learning by providing it more engagement with the material, a more immersive interaction (and in turn, less distraction), advanced and more relevant testing as well as getting the students hands on simulations early on. Each aspect of those immersive technologies can add a major improvement on almost every milestone of a student’s journey.

Interactive theory

Theory modules could be improved using VR by granting the student a broader look of its study material, as well as ways to interact with it. In the case of medical studies, students learning the details about bone and joint structure would gain the ability to view a given 3D object of an articulation, move around, twist and deconstruct the joint to have a better understanding of how it truly works. It would also make the understanding of specific diseases on certain body parts easier to visualize by animating the body part deterioration, which wouldn’t be as easily done with either objects or videos. The biggest challenge with theory modules is that students struggle a lot keeping themselves engaged with constant intensive learning, which is where immersive technologies and gamification can come in to help.

Technology in practice

Practical modules could be improved with both VR and MR by letting the student manipulate objects either in virtual space using VR, either in real space while being given additional information using MR. For engineering students, a MR workflow would let the student interact with objects with either virtual labels tracking real objects being manipulated. Furthermore, extra tutorial information for an experiment, such as the current step, the rules, safety precautions, will be available. For some potentially risky practical experiments, VR could help out by providing the student a realistic environment without risks, allowing the student to learn by trying without the fear of failing.

Creative Reality

Creative students could also benefit a lot from those technologies on both theory and practical sides. When it comes to creative fields, such as design and art, communication could be greatly improved by having hands on easy-to-use immersive devices. In design, prototyping is one of the most constraining bit because of the need to provide accurate information within a limited time. Certain fields of design, such as game design and 3D modeling/animation often requires the students to either go through a lot of writing or a lot of work to express a simple idea; while tools such as Tilt Brush (by Google) could provide a quick visual (perhaps animated) understanding of the idea.

A holistic learning environment

Immersive technologies could help testing students’ knowledge more properly than paper tests or most assessing methods currently used. When applied properly, VR/MR can create an environment suited for series of testing specific to the material: In the field of medicine, it can simulate an accurate stressful situation where a patient is going through an emergency while its family is screaming in the corridor, an electric engineering student can experience diagnosing an electric installation on a rough and windy day, architecture students could experiment structure design against various natural catastrophes or crowd simulations, design students could spend less time accurately brainstorming a prototype before getting started with the production, etc.

Using the growing Immersive Technologies, there’s a possible improvement in every field of study, in various aspects, allowing students to have a more engaging, smoother and fun learning.

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