Only 22% of the STEM workforce is women and only 36% of science PhDs in Canada are earned by women, showing little change over 20 years. Canada's Science Minister launched a national campaign to encourage more young women to enter STEM fields by engaging girls in STEM early through various channels. STEM toy companies are designing toys to specifically engage girls in an effort to increase the number of women in STEM careers.
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Engino 2018 - Let's Get Girls Started (STEM)
1. Only 22% of the STEM workforce is made up of women.
Only 36% of PhDs in science in Canada are earned by women.
“We are trying to increase the number of women getting into
science but the statistics haven't changed in 20 years.”
Maryse Lassonde, Scientific Director at Quebec’s Ministry
2. Canada’s Science Minister Kirsty Duncan marked the
International Day of Women and Girls in Science by announcing
the launch of an engaging national campaign to encourage young
women to enter science, technology, engineering and
mathematics (STEM) fields.
"Many of the barriers girls and women face in STEM can be broken
down through positive action. This means engaging girls in STEM early
and often through as many channels as possible—both inside and
outside school. It will take an attitudinal shift among parents,
educators and employers, but it can be done.“
Jennifer Flanagan, President and CEO, Actua
5. The Engino® Range starts with Qboidz for 2+ years through Inventor to Discovering Stem
which provides significant differentiation from our competitors in terms of Build Structure,
Education and Quality.
ENGINO® TOY SYSTEM is perhaps the most advanced and versatile three dimensional
construction toy in the market today, offering unique opportunities for both children and
adults alike. The toy comprises of a system of multi-faceted rods and connectors that share
some unique geometrical features that allow connectivity up to 6 sides simultaneously.
In essence, this patent-pending design transforms rods into connectors, leading to builds that
may be either dense or with large openings. This feature alone enables children to build fast
and easy, simple or complex models, using a very low number of different components and a
much lower quantity of parts.
Once built, all models are tough enough for every day robust play !
6. The 3D model viewer application shows step by step
instructions for the main models along with many other
models which are continually updated.
The user selects which model they want to view and then can
rotate the model to see it from various angles, zoom in to see
the connecting details and explode the model to see how
each part connects to the other one.
7.
8. Qboidz™ Series is available in:
2 models set
4 models set
10 models set
20 models set
Featuring: cars, animals, trains,
figures and buildings.
Qboidz™ features a new patented design that combines stacking blocks with clicking! Enhance children’s creativity
with this amazing learning tool and watch them build away. Construction play is beneficial for preschoolers as it
helps them to develop their cognitive, social and motor skills, by linking imaginative play with 3D model creation. All
models are available as interactive 3D instructions viewed either from a PC or smartphone and tablet through the
ENGINO® 3D View app.
The Qboidz™ building system is designed for preschool
children based on the latest STEM principles. The system
enhances creativity and imagination by combining the
ENGINO® snap-fit technology with traditional stacking
connectivity. Kids can build many different models from the
same set, while developing their dexterity skills and
perception of three-dimensional space.
9. Examples of Qboidz® models to make
• New patented design
• Increase dexterity and perception of 3D space
• Traditional building by stacking bricks
• Enhanced creativity by connecting bricks with rods in
any direction
• Fully compatible with the ENGINO TOY SYSTEM
10. Inventor®pink Series is
available in:
5 models set
10 models set
15 models set
20 models set
30 models set
Getting children, especially girls, interested in construction building
and engineering can be quite a difficult task. The brand new
INVENTOR® pink series tackles this problem by linking imaginative
play with 3D model creation. The vivid colours of lilac, fuchsia, light
green and sky blue enhanced with sparkling elements will surely
intrigue our little friends and urge them to explore their creative side.
The series starts with the 5 models set and reaches up to 30 models
set, increasing in quantity of 5! Each set contains printed instructions
for selected 4 models while the rest can downloaded for free from
www.engino.com
Toy Trends 2017
Spielwarenmesse
Girl Power
Girls should be strong, confident
and independent and pursue
their interests. Doctor, artist,
engineer - nothing is impossible
any more. What matters is going
after one’s goals and dreams. All
girls should be encouraged in
this. And they should be provided
with the capabilities to test and
try out their interests
inventorgirl
11. 5 models
10 models
15 and 20 models
motorized set30 models
Examples of inventor girl models to make
12. Pico Spinners have always been a favourite toy of children.
ENGINO® has developed this new series of colourful Pico
Spinners, where creativity meets fun! Each of the 4 sets of the
Pico Spinners contain a special spinner support component, a
printed colour disk and a library of standard ENGINO® parts
coloured with metal pigments.
2 models can be created from each set and when all sets are
combined, 3 models of planes and helicopters can be
assembled. Instructions for the combination models can be
found on ENGINO’s® website and more models are uploaded
regularly to further enhance the building possibilities.
14. 8 –16+
All packs come complete with a booklet including:
Easy to follow step by step instructions
Theory and amazing facts
Quiz section to challenge new acquired
knowledge
Experimental activities for hands on learning
The DISCOVERING STEM series was developed by qualified
teachers and academics, following the latest pedagogical
trends in order to combine theory with practice. The series
deals with the core subjects of STEM – Science, Technology,
Engineering and Mathematics – in a fascination and
enjoyable way.
Each package includes a comprehensive activity booklet,
covering a broad area of subjects: Mechanics and Simple
Machines, Structures, Newton’s Laws, Renewable Energy
and even Programmable Robotics! The combined packages
of Simple Machines and Physics Resource Maser Set include
5 and 8 activity booklets respectively.
15. 16 models
14 models
Learn how wheels and axles use friction to move objects easily and how an inclined plane can be used for lifting heavy objects and how
another form of inclined plane, the wedge, is used in every day application. Build 14 working models including: a launching platform, a door
with knob, a well, an airport staircase and an experimental ramp.
Learn how levers are used to increase a force for lifting heavy objects and how they can change the direction of motion. Build 16 working
models such as a see-saw, a movable weight scale, a wheelbarrow, a parking gate, a toy with moving figures, a pantograph and two types of
linkages.
Examples of STEM Mechanics models to make
Examples of STEM Mechanics models to make
16. 8 models
8 models
Learn how Pulley drives can be used to transfer force with reduced friction and are essential parts of complex machines solving many
technological problems. Build 8 working models including a material lift, a stationary bike, a crane bridge, a blender, construction crane and a
windmill.
Learn how to transmit power using Cams & Cranks and how they can be used to convert reciprocal to linear motion. Discover how these
mechanisms are crucial elements of many machines. Build 8 work models such as a fishing crane, oil pump, moving figure, moving bridge,
sewing machine and flying eagle.
Examples of STEM Mechanics models to make
Examples of STEM Mechanics models to make
17. 12 models
9 models
Learn how gears can easily reduce or increase speed, change force or transfer motion from one position to another. Discover how worm drives
are used to greatly reduce rotational speed. Build 12 working models including an experimental crane, gearbox, carousel, helicopter, screw
press and a crane with rotating arm.
Learn all about buildings and how they literally support our lives. Experiment with different types of bridges and find out how their
architecture design provides massive weight support and how engineers manage to reduce the effects of the types of forces applied. Build 9
working models including a house, a pyramid and various type of bridges.
Examples of STEM Mechanics models to make
Examples of STEM Structures models to make
18. 8 models
Learn about Newton’s laws of motion, experiment with kinetic and potential energy to discover the properties of energy and how it is
transformed from one form to the other. Build 8 working models such as a ballistic catapult, a gravity fan, a collision car, a moving cabin, a
balloon powered plan and a dragster.
16 models
Climate change and global warming urge scientists to take action and save our planet by reducing carbon emissions. The sun can provide
free energy for all our needs, however we need to convert it to a useful form. This set includes one 3V solar panel that powers an electrical
motor along with instructions for 16 solar powered models including a chopper car, fan, plane, robot and winch crane.
Examples of STEM Newton’s Laws models to make
Examples of STEM solar power models to make
19. 60 models
Simple machines is a combination of the basic 5 sets of Discovering STEM series and coves all Simple Machines mechanisms. These
mechanisms offer a mechanical advantage and are crucial elements of many machines and devices. They are designed to multiply or
reduce force, increase or decrease speed and convert one type of motion to another.
wheels, axles &
inclined planes
levers & linkages pulley drives
gears &
worm drives
cams & cranks
Examples of STEM simple machines models to make
20. 11 models
The Architecture Set demonstrates the ability of ENGINO® to build
huge models of impressive size and style. Children discover different
types of structures and build two oversized models of the Sydney
Bridge and the Eiffel Tower. The set is completed with smaller size
models including a cable-stayed bridge, suspension bridge, arch
bridge, truss bride and house.
Examples of STEM architecture models to make
21. 8 models
In amusement parks, the main attractions are often the exciting, fast rides or
the romantic, slow wheels that offer spectacular views from above. This set
includes one geared motor to power four large-scale models of such rides:
Ferris wheel, merry-go-round and booster ride. Build 4 smaller models such
as a gearbox, experimental crane, carousel and a planetarium.
Examples of STEM amusement park set models to make
22. 100 models
The Physics Resource Master Set is the ultimate combination of the 8 basic sets included in the “Discovering STEM” series. The patented
geometry of ENGINO® components allows connectivity to all directions of the 3D space enable users to easily create technical models. This
unique set enhances creativity and imagination while also teaching STEM principles.
levers &
linkages
wheels, axles &
inclined planes
pulley drives
gears &
worm drives
cams & cranks
structures newton’s laws solar power
Examples of STEM physics resource master set models to make
23. The interactive activity software is designed for the Physics resource master set, the ultimate STEM solution. It includes 38
experiments and other problem solving activities which are printable. For each experiment and activity there are 3D interactive
animations allowing the students to see how models move. The software also presents all background theory on the subjects
of Structures, Simple machines, Newton’s Laws of motion, Renewable Energy and Kinetic and Potential Energy. It includes
many graphics, images and animations and printable quizzes for each subjects, so that teachers can evaluate what their
students have learned.
24. Engineering has evolved rapidly over the last decade and most design process in real life is carried out on PCs
using specialized software, such as CAD programs. Children should familiarize themselves with the virtual
three-dimensional space and learn basic CAD commands such as rotate, zoom, explode and implode. This 3D
builder software contains a comprehensive library of all the ENGINO® parts. Users can select virtual connecting
points to construct easily any model of their own! Students or teachers also have the ability through the
software to export their models to a social media dedicated website, where others can view, rate and
comment, sharing work and ideas.
With a simple click, the Bill of materials pops up
showing which parts and in what quantities were
used to build the model.
25. A key element of any robotics system is the programming software. ENGINO® has developed a special software that allows 4
different methods of programming depending on the user’s needs and capabilities. The robot can also be programmed
manually using the onboard membrane buttons. The software is used for editing the program and adding complex functions.
In addition ERP can be controlled from smart-phone devices through Bluetooth connection. Apps are available for free in
Google Play and Apple store.
The ENGINO® Robotics Platform (ERP) is specially designed for Primary and
Secondary school children and even for robotic hobbyists! It takes into
account the latest technological trends and the most modern pedagogical
principles of learning. Both sets – PRO and MINI – consist of all the
necessary parts for building and programming a variety of robots. Depending
on the package these include the ERP controller, RJ cables, touch sensor,
infrared sensors, motors, LED lights and USB cable. You can find easy-to-
follow instructions for all the applied and incorporates innovative activities for
hands-on learning, along with a user manual with programming examples to
get you started.
www.enginorobotics.com
26.
27. +
Examples of ROBOTICS PRO set models to make
ERP SPECIFICATIONS:
32-bit ARM CORTEX-M2 micro controller
256 Kbytes FLASH, 64 Kbytes RAM
USB full speed port (12 Mbit/s)
Onboard buzzer
Onboard membrane buttons for manual programming
7 input – output ports. Connect up to 7 LED’s to teach
traffic lights, up to 4 sensors digital or analogue and
up to 3 motors (servo or analogue)
Power source: 6 x AA batteries (not included)
Pro version includes Bluetooth.
28. +
Examples of ROBOTICS MINI set models to make
ERP SPECIFICATIONS:
32-bit ARM CORTEX-M0+ micro controller
256 Kbytes FLASH, 64 Kbytes RAM
USB full speed port (12 Mbit/s)
Onboard membrane buttons for manual programming
4 input – output ports.
Power source: 3 x AAA batteries (not included)
All cables needed to connect the peripherals to the
micro controller are included