Technology programs for students in grades 3 through 8th in Naperville!

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My son/daughter work their iPhone, iPad with ease, don’t they already know technology?

While children work their iPhone, iPad, iPod and Games apps easily, the key to their success is to understand the inner workings of the technology  involved in creating those apps and games. At HoneZone, they will learn to “create” those games and apps, rather than just “use” them. It is the practical application of those ideas and the creative thinking required to solve real-world problems, that forms the basis of  a truly engaging learning experience.

Is my 3rd or 4th grader too young for this course ?

As a matter of fact, 3rd or 4th grade is a great age to introduce students to these technology skills.  We have learnt that young students engage in ideas big and small and every idea is their own and when developed,  the pride and confidence of having created their own technology idea,  takes them far.  Our goal  is to steer them towards STEM(Science, Technology, Engineering and Mathematics) early, so that they are prepared for future without feeling any pressure.  We just need the student to bring their creative self and have a great attitude.

My son/daughter does not want to become a Computer programmer when they grow up.  How is this Program useful for my student?

Technology is pervasive in almost every aspect of daily life, and as the workplace changes, STEM knowledge and skills grow in importance for a variety of workers (not just for Computer programmers, Mathematicians and Scientists). Studies have found that demand for STEM-capable workers have increased in traditionally non-STEM fields due to diffusion of technology across industries and occupations.  Improving access to quality STEM education will strengthen the caliber of the student even if they want to pursue a non-STEM career.  STEM knowledge extends beyond a career, it is a knowlege for life.

Parent involvement in Science learning

Courtesy: National Science Teacher’s Association

Parent Involvement in Science Learning

The National Science Teachers Association (NSTA) believes the involvement of parents and other caregivers in their children’s learning is crucial to their children’s interest in and ability to learn science. Research shows that when parents play an active role, their children achieve greater success as learners, regardless of socioeconomic status, ethnic/racial background, or the parents’ own level of education (PTA 1999; Henderson and Mapp 2002; Pate and Andrews 2006). Furthermore, the more intensely parents are involved, the more confident and engaged their children are as learners and the more beneficial the effects on their achievement (Cotton and Wikelund 2001).

Historically, innovations in science and technology have been powerful forces for improving our quality of life and fueling economic development worldwide. To continue to reap the economic and social benefits that accrue from such innovation, as well as to find solutions to challenging problems in the areas of health, energy, and the environment, we must ensure parents and children value science learning and recognize the tremendous opportunities that can arise from being more scientifically and technologically literate and better prepared to participate in the 21st-century workforce.

Parents and other caregivers have a critical role to play in encouraging and supporting their children’s science learning at home, in school, and throughout their community. Teachers also play an important role in this effort and can be valuable partners with parents in cultivating science learning confidence and skills in school-age youth. NSTA recognizes the importance of parent involvement in science learning and offers the following recommendations to parents.


Children are naturally curious about the world around them. Parents and other caregivers can nurture this curiosity in children of all ages by creating a positive and safe environment at home for exploration and discovery.

  • Acknowledge and encourage your children’s interests and natural abilities in science, and help them further develop their interests and abilities over time.
  • Encourage your children to observe, ask questions, experiment, tinker, and seek their own understandings of natural and human-made phenomena.
  • Foster children’s creative and critical thinking, problem solving, and resourcefulness through authentic tasks such as cooking, doing household chores, gardening, repairing a bike or other household object, planning a trip, and other everyday activities. Actively engage with your children during mealtime discussions or group games requiring mental or physical skills, or by talking about books they are reading or television programs about science they have watched.
  • Provide frequent opportunities for science learning at home and in the community through outdoor play; participation in summer programs; or trips to parks, museums, zoos, nature centers, and other interesting science-rich sites in the community.
  • Provide your children easy access to science learning resources such as books, educational toys and games, videos/DVDs, and online or computer-based resources.
  • Join your children in learning new things about science and technology. Take advantage of not knowing all the answers to your children’s questions, and embrace opportunities to learn science together.

Schools are essential resources for science learning. The more actively engaged parents and other caregivers are in their children’s schooling, the more beneficial schools can be for building their child’s appreciation and knowledge of and confidence and skills in science and technology (Cotton and Wikelund 2001). This holds true throughout the school-age years, from preschool through college.

  • Become a partner in your children’s schooling. Communicate regularly with your children and their teachers, school administrators, and counselors to learn more about your children’s science learning opportunities and performance.
  • Encourage your children to participate in extracurricular opportunities focused on science, technology, engineering, and math (STEM), such as clubs, field trips, after-school programs, and science research competitions.
  • Seek out opportunities to meet and get to know teachers of science. Volunteer in the classroom or on a field trip; serve on a science curriculum review or policy development committees; or attend a school’s open house or family science night event.
  • Be informed about the science program at your children’s school. Learn more about the school’s curriculum and the amount of time devoted to science learning and hands-on laboratory experiences at each grade level, and find out whether teachers believe they have the necessary resources and experience to teach science effectively. Become involved with the local school board to ensure that science learning is a top priority in the school system and that adequate resources are available. If you are home schooling, be sure that you are meeting or exceeding the same science standards covered in the local school curriculum.
  • Establish high expectations for your children’s science learning, as well as for the school system that fosters it.
  • Be an advocate for science learning by supporting local, state, and national science education policies and investments in science resources, including school curriculum materials, laboratory equipment, and teacher and administrator professional development. It is also important to advocate for organizations that support schools and home school families, including museums, libraries, and other science-rich nonprofit organizations.
  • Reach out to policy makers to impress upon them the value of science and technology learning and its importance to your children’s future.

Parents and other caregivers play an important role in ensuring that their children have the necessary knowledge and skills in science and technology to become scientifically literate and informed citizens. It also is imperative that we develop a strong science- and technology-skilled workforce. Parents can encourage children to consider and pursue a science- or technology-related career and to obtain the necessary knowledge and skills that will allow them access to and success in such a career.

  • Seek out opportunities to introduce your children to individuals in your community whose work relates to science or technology. This may include trades and professions such as construction or manufacturing, public safety, medicine, natural resource management, or research.
  • Participate in “Take Your Child to Work” days, and expose them to the science and technology in your workplace. Encourage your employer to promote and support these opportunities.
  • Attend career fairs with your children. Help them explore a broad range of career options and learn about and understand the necessary skills and coursework required to pursue these careers.
  • Look for special events and programs in your community that enable your children to meet scientists, or visit a worksite or local university where science and technology are prevalent. Support your children’s participation in online academic mentorship programs that pair students and scientists to carry out STEM projects.
  • Find opportunities in your community to connect science and technology businesses, schools, and non-school learning venues such as museums, libraries, and clubs. Encourage both financial and personnel investments in science learning. Ask businesses to give employees release time to support science learning at school or in the community and to become mentors for school-age youth.
  • Encourage your children to disbelieve negative stereotypes about scientists, and help them understand that anyone can have a career in science.
  • Model values that support learning, self-sufficiency, responsibility, and hard work so your children will develop at an early age the confidence and determination to pursue their career interests in science or technology.

—Adopted by the NSTA Board of Directors
April 2009

Bedtime Math: A Problem a Day Keeps Fear of Arithmetic Away

Courtesy – (

For many parents with young children, the bedtime routine is a firmly entrenched system involving a warm bath, a good book, a kiss and a hug. Toying with that equation borders on sacrilege, but Laura Overdeck thinks it’s time to make room for a math problem alongside the nightly story.

In February, the high-tech consultant-turned-stay-at-home mom launched Bedtime Math, a website devoted to creating the sort of cachet for arithmetic — before the final tuck-in — that reading has.  “You hear so many people say, I’m just not good at math,” she says. “But you never hear people say, I’m just not good at reading.”

Overdeck began by emailing about a dozen friends a word problem with varying levels of difficulty, ranging from calculations appropriate for their preschoolers to upper-elementary students. Within a week, her list of subscribers had tripled. Nine months later, 20,000 people have signed up to receive the free daily emails. “It’s just exploded,” says Overdeck.

That’s heartening news for educators who bemoan the state of science, technology, engineering and math (STEM) education in the U.S.  In 2009, American teens ranked 31st place in math and 23rd in science, behind Asian powerhouses Japan and China and European countries including Poland and Slovakia in a global skills survey.

Bedtime Math isn’t the only program trying to turn the tide. Let’s Play Math encourages mathematical game-playing. Living Math extolls the beauty of arithmetic to parents and teachers. Math for Love offers professional development for teachers on how to spice up their approach to numbers and introduces kids — including my own — to the joy of math. For a parent whose palms grew sweaty just walking into geometry class, realizing that math could be something other than anxiety-provoking was nothing short of groundbreaking. “Through games, math becomes something that kids do for fun and not some awful arduous task,” says Math for Love co-founder Dan Finkel. “Our goal is to change the culture around mathematics.”

(MORE: How Does a Child’s Weight Influence Her Math Abilities?)

Overdeck, who studied astrophysics at Princeton University, first recognized the need to incorporate math into kids’ lives once she realized that she and her husband, who majored in math at Stanford University, were doing something with their daughter that none of their upper-middle-class friends were: math, starting from her second birthday. “In our house, math is a fun thing that kids seek out,” says Overdeck. “Everyone knows they should read a book, but nobody knows they should be doing math with their kids. People don’t do math recreationally yet all the politicians are scratching their heads, wondering why we’re falling behind educationally.”

The challenge is even greater for girls; women make up 48% of the workforce, but represent just 24% of STEM workers. But those workers are faring well, pulling in enviable salaries: they earned 33% more than comparable women in non-STEM jobs, according to the chief economist for the U.S. Department of Commerce. “We need more young women and minorities to have access to these careers,” says Joan Ferrini-Mundy of the National Science Foundation. “We know a lot from research that the earlier we can get kids hooked on math, the better that is for their long-term careers.”

Overdeck, 42, can see for herself the point at which she says little girls start to believe they’re no good at calculations. “Every email I get about a child who has a math block comes from a parent with an 8-year-old girl,” she says. “A lot of studies show teachers are not comfortable with math, and teachers are mostly women.”

She’s trying to change the paradigm, promoting the math problems she writes to teachers and principals in addition to parents. She’ll often draw on the interests of her own three children — ages 4, 7 and 9 — so there are frequent calculations about stuffed animals or vehicles.

Making math engaging and applicable to daily life is important when it comes to connecting with children, says Overdeck. When kids go to school, they are often bored by dry worksheets when they should be exposed to fun, real-life examples of the way math works in everyday life. After Hurricane Sandy, for example, one day’s problem challenged preschoolers to identify which license plate numbers entitled New Jersey residents (Overdeck is one) to fill up on rationed gas on odd-numbered days. Older kids were asked: “If 1 pump can fuel a car in 6 minutes and the station has 4 pumps, how many cars can get filled in an hour?  Bonus: We saw another car line that had 100 cars in it.  How long will it take the last car in that line to get gas?”

(P.S. Mom and Dad, if you’re struggling to unravel that gas-station riddle, the answers are: 40 cars and 2 ½ hours.)

Read more:


HoneZoneKids’ Tech programs for students grade 3 – 8 in Naperville!

HoneZoneKids Courses for Students in Grades 3 through 8 in Naperville/Aurora area

Our courses are designed to steer your child early towards STEM, prepare for future STEM careers and learn useful 21st century skill while having loads of fun using their Creative minds! Follow the link to checkout our courses. Hurry, new session starts January ! Register now!

Tech Start® – Introduction to Game & Animation Programming

Start Young, Thing Big! Take a fun, creative, exciting journey with the staff at HoneZoneKids, as we explore the frontiers of Technology through this course. Students will combine their power of creativity and imagination to bring their own interactive stories, animations and games to life, using Scratch Technology

Tech Dives® – Advanced Game & Animation Programming

Future is now, Future is You! Why wait? Take an exciting and adventurous journey diving deep, as we explore the depth of Technology through this course. Students use their creative minds to design Game and Animation ideas using advanced Scratch Technology concepts, follow an analytic and creative approach to design their ideas. This course prepares students to take on other areas of Technology with greater levels of confidence and understanding.

Tech Strides® – Advanced Programming & Computational concepts

Take bold strides for a bright future, as we explore Technology in a fun, team setting. Students combine logic, problem solving abilities, imagination and creativity to create sophisticated Game ideas and implement them using remarkably powerful Python Technology. Students learn and become comfortable with Programming constructs such as variables, sequencing, conditional branching, control structures, data manipulations, compilation, debugging and troubleshooting. This course helps students understand the role that creativity can play in Technology and learn an useful 21st Century skill

Tech Sprints® – Mobile App Development (Coming Soon!)

Take control of your future, as we create mobile apps(Coming Soon!) Students learn and exhibit mastery of skills by creating apps for Mobile technologies.

Young children explore as scientist do!


In the ever-increasing drive to start the college pipeline as early as possible, debate has been heating up over just how much academics and testing should be included in early-childhood education programs. Now, a National Science Foundation-backed report in the journal Science argues that children’s natural learning style already reflects the scientific process educators will spend the next decade trying to instill in school-age students—if they can get an engaging environment to explore.

Alison Gopnik, a psychology professor at the University of California, Berkeley, reports that children from as young as 8 months old through preschool explore through techniques that would seem familiar to any scientist: they make hypotheses and test them against data; predict outcomes using statistics, and can infer the causes of failed actions.

All of these things, Gopnik and her colleagues argue, happen years before any formal training in the same scientific techniques. “What we need to do to encourage children to learn is not to put them in the equivalent of school, tell them things, give them reading drills or flash cards. We really need to put them in a safe, rich environment where the natural capacities for exploration, for testing, for science can get free rein,” she said in a briefing with reporters.

In the past decade, emerging research on brain development and plasticity have given parents and educators a much bigger sense of young children’s cognitive abilities. Rather than the traditional metaphor of a young child as a “blank slate” on which adults imprint knowledge, children constantly analyze and make conclusions about the world around them.

This can give teachers and parents more faith in children’s learning potential, yet Gopnik warned, “One of the unfortunate things that’s happened is, as we’ve begun to realize just how powerful babies and young children’s brains are and how much they’re learning, is, often the way people interpret that is to say we should put them in school earlier. There is great pressure from parents and policymakers to make preschools and early-childhood education more and more structured, more and more academic, more and more like school. What new science is telling us is … that push may have negative effects as well as positive ones.”

Moreover, young children need a “safe, rich, engaging” environment to explore, and that’s often one more gap between children in concentrated poverty and their wealthier peers. “Twenty to 25 percent of children are growing up in poverty; not just in terms of money coming in, but growing up in isolation, where it’s too dangerous to go out on the street, in families where there isn’t a supportive network of people to take care of you or pay attention to what you are thinking,” Gopnik said.

The report emphasizes that ensuring each child has a nurturing environment to explore early on may be as or more important to getting them ready for school than ensuring they meet pre-literacy benchmarks.

12 Technologies to watch in STEM education


On Thursday, Sept. 20, the New Media Consortium for the first time released a technology outlook for science, technology, engineering and math .

The report identifies 12 technologies to watch in these fields over the next five years. Of these 12 technologies, four did not make it onto the short list of either of the reports on K-12 or higher education that the consortium released earlier this year. These four include collective intelligence, massively open online courses, social networking and wearable technology.

This chart shows a comparison of the 12 technologies that made the short list for each of these reports, all published by the New Media Consortium. This new report, though, was published in collaboration with the Centro Superior para la Enseñanza Virtual, Departamento de Ingeniería Eléctrica, Electrónica y de Control at the Universidad Nacional de Educación a Distancia, and the Institute of Electrical and Electronics Engineers Education Society.

The K-12 and higher education editions narrow the list to six, while the new report keeps it at 12. The technologies highlighted in the chart below made it their respective report’s final list.

Three Horizon Report Comparisons
Time to adoption Technology Outlook for STEM+ Education 2012-2017 NMC Horizon Report 2012 Higher Education Edition NMC Horizon Report 2012 K-12 Edition
One year or less Cloud computing Cloud computing Cloud computing
Collaborative environments Mobile apps
Collaborative environments
Mobile apps Social reading Mobiles and apps
Social networking Tablet computing Tablet computing
Two to three years Augmented reality Adaptive learning environments Digital identity
Learning analytics Augmented reality Game-based learning
Massively open online courses Game-based learning Learning analytics
Personal learning environments Learning analytics Personal learning environments
Four to five years Collective intelligence Digital identity Augmented reality
Internet of things Natural user interfaces Natural user interfaces
Natural user interfaces Haptic interfaces Semantic applications
Wearable technology Internet of things Assessment of 21st century skills

Not surprisingly, mobile apps and cloud computing made it into the short list of all three reports in the one year or less horizon. That means within a year or less, this technology could become mainstream.

But here’s why these technologies matter for science, technology, engineering and math education. With cloud-based collaboration tools, students can work together to solve problems, create reports and brainstorm. Researchers can work with huge data sets as cloud-based servers are organized in better ways. And virtual machines in the cloud allow computer science programs to simulate computers that appeared at various points in history. Mobile apps allow students to disect animals virtually and view period tables in 3D.

Four to five years down the road, collective intelligence could become mainstream. Collective intelligence is exactly like it sounds: gathering and recording knowledge from large groups of people. And this is already embedded in scientific research networks.

What if my Son/Daughter is not interested in pursuing STEM careers when they grow up?

HoneZoneKids believe that everyone would benefit from learning the basic skills and mental gymnastics required to write simple computer programs, regardless of their future career choices. Technology is pervasive in almost every aspect of daily life, and as the workplace changes, STEM knowledge and skills grow in importance for a variety of workers (not just for Mathematicians and Scientists). This is a great age to introduce them with these skills. Please checkout to learn more !

Why is everyone talking about STEM?

So, what is STEM?

According to the U.S. Bureau of Statistics, in the next five years, STEM jobs are projected to grow twice as quickly as jobs in other fields. While all jobs are expected to grow by 10.4%, STEM jobs are expected to increase by 21.4%. Similarly, 80% of jobs in the next decade will require technical skills.

Why STEM early ?

Of the 3.8 million 9th graders in the US, only 233,000 end up choosing a STEM degree in college (National Center for Education Statistics). That means only six STEM graduates out of every 100 9th graders. While we know that young children work their iPhone, iPad, iPod and Games app easily, We have learnt that they too engage with ideas big and small – problem solving, thinking mathematically and using logic and reasoning. It is the practical application of those ideas and the creative thinking required to solve authentic problems forms the basis of a truly engaging learning experience.

Technology courses for students(Grades 3 to 8) in Naperville!

10-week session starts first week of every month.   Checkout for more details.

At HoneZoneKids – Creativity Meets Technology! At HoneZoneKids, we are committed to steering your child towards STEM & technology early! We set them on track for successful future STEM careers. Our goal is to have your child learn meaningful 21st century skills and understand the power and role of Creativity in Technology. We believe that every child has the potential and loves the mental gymnastics that is required to learn the technology in a creative setting and HoneZoneKids is ready to help your child hone that skill to their fullest potential!

At HoneZoneKids, we know that children work their iPhone, iPad, iPod and Game consoles easily these days. What we have also learnt is that children using such technology engage in ideas big and small – such as problem solving, thinking mathematically and using logic and reasoning. Its the practical application of those ideas and the creative thinking required to solve real-world problems that forms the basis of a truly engaging learning experience.

Instructors at HoneZoneKids have spent their careers in technology areas and are experts in this field and have the ultimate passion to their work and are great at working with kids. Your child will have first hand understanding of how technology can solve real world problems. We would like for the children to take home broad experience, new found energy and great desire in the field of technology – to go farther than they could’ve ever expected.

We are a family owned company. Our priorities are clear – We don’t cut anything short. Every season we raise the bar with regards to customized curriculum, quality staff and good, old-fashioned fun. Our dedication and true desire to be the best has made us the most recommended in the industry. Our continued dedication to leading the pack is something we are proud of, and something you can count on.