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Teaching Method
Traditional
Teacher-centered curriculum commonly used in classrooms that may include a text, teacher manual, tests, etc.
Charlotte Mason
A methodology based on the work of a 19th century educator who maintained that children learn best from literature (Living Books), not textbooks.
Classical
A methodology based on the Latin Trivium (three stages of learning), including the grammar stage (memorization and facts), logic stage (critical thinking), and rhetoric stage (developing/defending ideas).
Unit Study
A thematic or topical approach centered around one topic that integrates multiple subject areas.
Montessori (Discovery)
A methodology based on the work of a 20th century educator that emphasizes student and sensory-driven discovery learning and real-life applications.
Other
Other methodologies
Religious Content
Secular
Contains content contrary to common Christian beliefs (i.e. evolution).
Neutral
Avoids religious or theoretical topics or presents multiple viewpoints without preference.
Christian/Religious
Faith-based or including instructional religious content.
Learning Modality
Auditory
Learns through listening, talking out loud or reading out loud.
Visual
Learns through seeing, prefers written instructions and visual materials.
Kinesthetic/Tactile (Hands-On)
Learns through moving, doing and touching.
Multi-Sensory
Curriculum that employ a variety of activities/components.
Presentation
Sequential
Curriculum progresses through well-defined learning objectives. Emphasizes mastery before moving to the next topic.
Spiral
Topics and concepts are repeated from level to level, adding more depth at each pass and connecting with review.
Conceptual/Topical
Focus is on the “why,” often with a unifying concept as well as specific skills; coverage may be broader.
Teacher Involvement
Low Teacher Involvement
Student-led materials; parent acts as a facilitator.
Medium Teacher Involvement
A mix of teacher-led time and independent student work.
High Teacher Involvement
Teacher-led lessons; may utilize discussions, hands-on activities and working together.
Additional Materials Required
No other materials needed
Everything you need is included.
Other Materials Required
There are additional required resources that are a separate purchase.
Other Materials Optional
There are additional resources mentioned or recommended but are not absolutely necessary.
Build your very own
robotic gyroscope with this neat kit! Great for beginner or intermediate robot
builders, this simple kit demonstrates the law of forces and motion. The
instruction manual features clear visual demonstrations with arrows and piece
numbers to help with the building process. Specific steps that may be tricky
also include a QR code for a demonstration video of that step. Once finished,
there are 5 experiments to complete in the 12-page manual. To properly cut the
pieces out of the storage frames, diagonal cutters should be used. The robot
also requires two AAA batteries to operate. Diagonal cutters and batteries not
included.
Publisher's Description of Newton's Apple: Tightrope-Walking Gyrobot
tightrope — what would Isaac Newton have thought? Build a cute apple robot that walks along a tightrope. How? Thanks to the robot's main component, a motorized gyroscope, it can maintain its balance and perform this fun trick without falling over. Through five experiments, you can discover the astonishing powers of the motorized gyroscope and explore the physics behind its amazing behaviors. Experiment with getting the gyrobot to walk on the different included tracks and on a string, investigate the gyrobot's center of gravity, play a ring-toss game, and watch the gyrobot spin on a flat surface.
Build a one-of-a-kind apple robot that defies gravity!
Thanks to the robot's main component, a motorized gyroscope, this special apple can walk along a tightrope without falling.
Explore the physics behind this scientific device through five unique experiments that investigate gravity.
The unique and functional design makes this an affordable, fun, and educational gift with high play value.
The kit includes parts to build the gyrobot and experimental setups, including a track to walk around.
By constructing the robot and performing the experiments with the motorized gyroscope unit, young engineers can learn about the science of gyroscopic devices and the indispensable role they play in our lives.
A full-color, 8-page, illustrated experiment manual provides step-by-step assembly instructions and scientific explanations.