Digital Devices Driving Autism Education

Computers have always proved to be excellent gadgets to facilitate communication and learning for children with autism spectrum disorder. Now, with the emergence of smart phones and the iPad, autistic children have greater opportunities for improving their cognitive, communication and motor skills.

Various organizations that are engaged in supporting families living with autistic kids, have developed apps and programs like “Math on the Farm” and “Make Sentences” that are amazing tools. These autism education apps promote learning among special needs children.

Why digital devices?

Autism apps like “Math on the Farm” and “Make Sentences” running on smart phones and iPads provide greater flexibility and portability than a traditional laptop or computer. These latest digital devices utilize touch screen technology which makes them more accessible to autistic children, especially those who have coordination and learning difficulties. Most of the children using an iPad find that the sliding and tapping motions are much easier to execute than typing. Besides, smart phones and tabs can be taken wherever you want to go. They are much lighter than the bulky assistive communication gadgets of the past and that’s a major advantage of using these devices.

Tabs, smart phones, and iPads are great tools for communication and education, which if one of the several reasons why the “Math on the Farm” and “Make Sentences” autism apps have become hugely popular among special needs children. Apps like these can be customized to the specific needs of the autistic child using them. This helps to make the lessons more attractive and interesting that the conventional learning devices. It has been noticed that many children can use these gadgets better than adults.

The world of autistic children is full of imagery. Words have a lesser importance to them. The “Math on the Farm” and “Make Sentences” autism education apps freely use images to help children string together words and create sentences, and solve mathematics problems. In this way, special needs children are able to communicate with educators, instructors, counselors, and parents sans any frustration.

The benefits

Autism apps like “Math on the Farm” and “Make Sentences”, running on iPads and tabs, offer huge benefits. The direct touch screen ensures that no stylus or mouse is required for input functions. The most important point is that the apps are predictable, accessible, and easily organized. They help breaking down lessons to discrete topics or chunks that make learning more enjoyable. Special needs and autistic children can learn in a better way through the “Math on the Farm” and “Make Sentences” autism apps.

Science Education and Art Education: The Perfect Pair

After years of touting the STEM (science, technology, engineering, and mathematics) educational programs, many teachers are discovering that by adding an "A" –for ART– student learning will pick up STEAM! This latest understanding of how students learn is changing science education by adding Art education back into the mix. This integrated education approach is developing a proven track record and being incorporated into public, private and homeschool education.

At its inception, the STEM bill authorized over 150 million to help students earn a bachelor's degrees and teaching credentials. It also provided millions in additional money to help align kindergarten through grade 12 math and science curricula to better prepare students for college.

Now years later, people are asking questions like: Why are math and science viewed as standalone modalities? Why have so many schools dropped Arts education from their curriculum?

For too long, we have wrongly believed that Science and Art education were separate disciplines that demanded different teaching methods. However, now we know that Science and Art, as well as Math and Music are intrinsically related!

Educational researchers are recognizing that it is important to integrate all modalities into STEM lessons. By broadly using an integrated education curriculum, students are able to see how science education is important to aspects of everyday life. Integrated education also affords the opportunity for real-world application of the math and science education knowledge.

The use of Art as the glue that bonds these modalities shows students how form and function are guiding principles. Art is not merely illustrative or decorative, but represents an essential part of the process of inquiry, such as problem finding, problem solving, and communication.

The fervor that propels people to excel at mathematics and science education or engineering and art education are driven by the same desire: the desire to discover the intricacies and beauty in one's world and chosen work. Furthermore, Art is also integrated into technologies such as engineering in the "form and function" debate. Does form follow function or does function follow form? Either way the two are fundamentally linked. Cars are a perfect example: From the Model-T Ford to the latest concept car, we have seen that the evolution of technology is as much about aesthetics (form) of the product as it is about functionality.

Many of the fundamental concepts of form and function are the same. Line, shape, color, structure / function relationships as well as perspective, patterning, and sequencing are the language of art and science education. Students create "an artistic representation of their ideas and solutions is a valuable way to make learning personal. This allows for a clear understanding of the underpinnings of science principles and how these principles can be extrapolated to solve existing problems. It has been proven that students who previously had difficulty in STEM classes are picking up STEAM quickly!

How to Solve Problems in the Mathematics Education Using Calculators

Mathematics is a very important element in the development of the value and standard of the life of the individual and society. Mathematics enters in everything from science, technology and engineering to arts and social sciences to economics and decision making.

It is very important that society constantly produces new generations of well trained mathematicians. This means that the school should increase the student's interest and develop his skills in the subject. To achieve this goal the school should see the reasons why students fear mathematics and why many students do very poorly in the subject.

The fist reason for the difficulty of the subject for students is that mathematics is abstract. It is not tangible they can not hold it. To make them understand a pure concept at this early stage is very difficult. They need to relate it to real life problems that they face in their daily lives. This way they will be stimulated by its importance for them and will see that it is useful and fun. Moreover, the use laboratory experiments using calculators would make concepts more understandable. There are many new innovative software calculators built just for this purpose.

The conventional system of teaching mathematics contributes significantly to the poor performance of students. This is because many teachers teach students how to implement algorithms without teaching them the idea behind the algorithms and there is no stress on the understanding of the concepts. This causes the interest level in the subject to decline and soon students develop a disassociation with the subject. To solve this problem the schools can create a mathematics society and a forum where students can communicate with each other discussing material and asking each other questions. This kind of social behavior may increase the student's interest in the subject.

Students pass early mathematics classes and they are not really fit in the subject. This is because the exams and grading did not reflect the student's true ability. This causes the students to have very big problems in senior mathematics classes which are dependent on the early classes. For example if we look at the early pupil stage we can imagine a pupil who does not understand the concept of divide and multiply. That is to say when should he divide and when should he multiply. Now can this pupil at a later stage know to solve a word problem? The answer is surely no. He will not know what we are talking about. We can also imagine a student who does not understand the concept of the algebraic equations. This student could not be asked to plot a graph because simply he will not have an idea about what we are speaking about. The teachers can use calculators to teach pupils the concepts of multiply and divide. They can let them experiment on their own with many numbers using the calculators. From the observations the pupils will understand the concepts of multiply and divide. Moreover, teachers could use calculators to teach students the concepts of functions and graphing. It is easy and fun using calculators.

Finally, those who are teaching mathematics may have sufficient knowledge in the subject. They usually have a mathematics degree but this is not enough. To be a teacher you certainly got to be strong in the subject but this is only one major factor in being a successful teacher. The teacher should know about education and student psychology. he should also have a strong personality and be a good leader.