The 10 best pitsco robot for 2022

The Pitsco Laser-Cut Basswood T-Bot II Hydraulic Arm kit provides students in grades 6-12 a hands-on activity to build a hydraulic robot that demonstrates the scientific concepts of axes and levers, force, and Newton's laws of motion, and it includes basswood parts required to build the robot and syringes and tubing for implementing four hydraulic controls. It includes laser-cut basswood parts, syringes, wood dowels, screws, O-rings, nylon spacers, a plastic straw, clear plastic tubing, hook-and-loop fastener, a rubber band, a resealable plastic bag, and instructions. The T-Bot II illustrates how axes and levers work for students studying simple machines, and it demonstrates hydraulic power and simple robotics for students studying mechanical concepts. The kit reinforces engineering, technology, and math concepts as students build and test a hydraulic robot. The finished T-Bot II measures 12 inches at its tallest point. A hydraulic robot is typically used in an educational setting to demonstrate mechanics, robotics, and physics.

Construction requires a screwdriver, scissors, glue gun and glue slugs, and white glue (all sold separately). The T-Bot II can be mounted on the 34106 T-Bot II Base (sold separately).

Science education products incorporate applied math and science principles into classroom and homeschool-based projects. Teachers in pre-K, elementary, and secondary classrooms use science education kits and products alongside science, technology, engineering, and math (STEM) curriculum to demonstrate STEM concepts and real-world applications through hands-on activities. Science education projects include a broad range of activities, such as practical experiments in engineering, aeronautics, robotics, energy, chemistry, physics, biology, and geology.

Pitsco Education develops K-12 science, technology, engineering, and math (STEM) curriculum, educational kits, and classroom tools. The company, founded in 1971, is headquartered in Pittsburg, KS.

Whats in the Box?

• Laser-cut basswood sheets (3 per robot)
• 6ml syringes (8 per robot)
• 1-1/8-inch dowel (1 per robot)
• 1-1/2-inch dowel (1 per robot)
• 1-3/4-inch dowels (4 per robot)
• 2-inch dowels (3 per robot)
• 2-1/2-inch dowel (1 per robot)
• 3/8-inch screws (8 per robot)
• 1/2-inch screws (2 per robot)
• O-rings (2 per robot)
• Nylon spacers (2 per robot)
• Plastic straw (1 per robot)
• 8 feet of clear tubing (1 per robot)
• Strip of hook-and-loop fastener (1 per robot)
• Rubber band (1 per robot)
• Resealable plastic bag (1 per robot)
• Instructions

The Pitsco 36468 TETRIX Tank Tread Kit includes polyoxymethylene (POM) tank tread chain links and component parts to build 6-1/2 feet of tank tread or conveyor belts for students in grades 9-12 building TETRIX robotics projects. The 36460 TETRIX Tank Tread Chain Links are made of durable POM. The links snap together for user ease and can be separated for reuse in other projects. Each link measures 8mm x 40mm (W x D). (W is width, the horizontal distance from left to right; D is depth, the horizontal distance from front to back.) Additional parts including wheels, sprockets, axles, and bushings allow students to attach completed tank treads to a robot for even weight distribution, traction, and stability. The nylon wheels provide rolling support, and the 20-tooth nylon sprockets provide the drive system for tank treads.

The kit comes with 36462 TETRIX Tank Tread Idler Wheels, 39065 TETRIX 32mm Channels, 36461 TETRIX Tank Tread Sprockets, 39091 TETRIX Bronze Bushings, 39100 TETRIX 1/8-inch Axle Spacers, 39092 TETRIX Axle Set Collars, and 39088 TETRIX 100mm Axles. TETRIX products reinforce science, technology, engineering, and mathematics (STEM) concepts for students in grades 9-12 studying robotics and building a working robot that demonstrates engineering, simple machines, force, and Newton's laws of motion. Tank tread chain links, wheels, axles, and sprockets can be used in an educational setting to build a robotics project, among other mechanical robotic applications.

Science education products incorporate applied math and science principles into classroom and homeschool-based projects. Teachers in pre-K, elementary, and secondary classrooms use science education kits and products alongside science, technology, engineering, and math (STEM) curriculum to demonstrate STEM concepts and real-world applications through hands-on activities. Science education projects include a broad range of activities, such as practical experiments in engineering, aeronautics, robotics, energy, chemistry, physics, biology, and geology.

Pitsco Education develops K-12 science, technology, engineering, and math (STEM) curriculum, educational kits, and classroom tools. The company, founded in 1971, is headquartered in Pittsburg, KS.

What's in the Box?

• 36460 TETRIX Tank Tread Chain Links (2 pkg. of 100)
• 36462 TETRIX Tank Tread Idler Wheels (3 pkg. of 2)
• 39065 TETRIX 32mm Channels (2 pkg. of 2)
• 36461 TETRIX Tank Tread Sprockets (pkg. of 2)
• 39091 TETRIX Bronze Bushings (2 pkg. of 12)
• 39100 TETRIX 1/8-inch Axle Spacers (pkg. of 12)
• 39092 TETRIX Axle Set Collars (pkg. of 6)
• 39088 TETRIX 100mm Axles (pkg. of 6)

The Pitsco 37471 Laser-Cut Basswood T-Bot II Hydraulic Arm with Challenge Set includes the 34110 T-Bot II Hydraulic Arm and 37047 T-Bot II Challenge Set and provides students in grades 6-12 a hands-on activity to build and test a hydraulic robot that demonstrates the scientific concepts of axes and levers, force, and Newton's laws of motion. The kit includes basswood parts and glue required to build a robot, and also comes with syringes and tubing for implementing four hydraulic controls. It includes laser-cut basswood parts, syringes, wood dowels, screws, O-rings, nylon spacers, a plastic straw, clear plastic tubing, hook-and-loop fastener, a rubber band, a resealable plastic bag, and instructions. The T-Bot II illustrates how axes and levers work for students studying simple machines, and it demonstrates hydraulic power and simple robotics for students studying mechanical concepts. The kit reinforces engineering, technology, and math concepts as students build and test a hydraulic robot. The finished T-Bot II measures 12 inches at its tallest point.

The T-Bot II Challenge Set includes laser-cut basswood parts to make two activity tables, a base, and a frame for the T-Bot II's hydraulics to test the robot with object-stacking tasks. It includes laser-cut basswood parts, Ping-Pong balls, aluminum legs, hook-and-loop fastener, dowels, screws, vinyl caps, a rubber band, and the T-Bot II Challenge Board Activity Guide. A hydraulic robot is typically used in an educational setting to demonstrate mechanics, robotics, and physics.

Construction requires a screwdriver, scissors, glue gun and glue slugs, and white glue (all sold separately).

Science education products incorporate applied math and science principles into classroom and homeschool-based projects. Teachers in pre-K, elementary, and secondary classrooms use science education kits and products alongside science, technology, engineering, and math (STEM) curriculum to demonstrate STEM concepts and real-world applications through hands-on activities. Science education projects include a broad range of activities, such as practical experiments in engineering, aeronautics, robotics, energy, chemistry, physics, biology, and geology.

Pitsco Education develops K-12 science, technology, engineering, and math (STEM) curriculum, educational kits, and classroom tools. The company, founded in 1971, is headquartered in Pittsburg, KS.

Whats in the Box?

• 34110 Laser-Cut Basswood T-Bot II Hydraulic Arm: laser-cut basswood sheets (3 per robot); 6ml syringes (8); 1-1/8-inch dowel; 1-1/2-inch dowel; 1-3/4-inch dowels (4); 2-inch dowels (3); 2-1/2-inch dowel; 3/8-inch screws (8); 1/2-inch screws (2); O-rings (2); nylon spacers (2); plastic straws; 8 feet of clear tubing; strip of hook-and-loop fastener; rubber band; resealable plastic bag; Instructions
• 37047 T-Bot II Challenge Set: laser-cut basswood parts; Ping-Pong balls (4); 28-inch length of rubber band; aluminum legs for the boards (7); hook-and-loop fastener; 3/16 x 3-7/8-inch dowels (3); #6-32 x 1/2-inch screws (7); 4 x 1/2-inch screws (5); vinyl caps (2)
• T-Bot II Challenge Board Activity Guide

The Pitsco 39068 Aluminum TETRIX Heavy-Duty Channel is made of aircraft-grade aluminum, comes in a pack of two, and measures 288mm long to provide a robot's structural base for students in grades 9-12 building TETRIX robotics projects. The channel is made of 2mm thick aluminum for durability. Aluminum resists corrosion and tarnishing, and is lightweight. The hole pattern on this structural piece enables students to connect pieces together at angles, as well as horizontally and vertically. The channel can be cut to different lengths, drilled to add holes, or bent for custom designs. TETRIX products reinforce science, technology, engineering, and mathematics (STEM) concepts for students in grades 9-12 studying robotics and building a working robot that demonstrates engineering, simple machines, force, and Newton's laws of motion. Aluminum channels can be used in an educational setting to provide the body structure for a robotics project.

Science education products incorporate applied math and science principles into classroom and homeschool-based projects. Teachers in pre-K, elementary, and secondary classrooms use science education kits and products alongside science, technology, engineering, and math (STEM) curriculum to demonstrate STEM concepts and real-world applications through hands-on activities. Science education projects include a broad range of activities, such as practical experiments in engineering, aeronautics, robotics, energy, chemistry, physics, biology, and geology.

Pitsco Education develops K-12 science, technology, engineering, and math (STEM) curriculum, educational kits, and classroom tools. The company, founded in 1971, is headquartered in Pittsburg, KS.

The Pitsco 38336 Laser-Cut Basswood T-Bot II Hydraulic Arm with Teacher's Guide includes the 34110 T-Bot II Hydraulic Arm and Pitsco 59727 T-Bot II Teacher's Guide by Tim Cannell (ISBN: 1-58651-926-3), which provides instructions, lesson plans, worksheets, tests, puzzles, and resource pages for teaching science, technology, engineering and mathematics (STEM) activities based on the T-Bot II hydraulic arm project. The T-Bot II kit provides students in grades 6-12 a hands-on activity to build a hydraulic robot that demonstrates the scientific concepts of axes and levers, force, and Newton's laws of motion. It includes laser-cut basswood parts required to build the robot and syringes and clear plastic tubing for implementing four hydraulic controls, as well as wood dowels, screws, O-rings, nylon spacers, a plastic straw, hook-and-loop fastener, a rubber band, a resealable plastic bag, and instructions. The T-Bot II illustrates how axes and levers work for students studying simple machines, and it demonstrates hydraulic power and simple robotics for students studying mechanical concepts. The kit reinforces engineering, technology, and math concepts as students build and test a hydraulic robot. The finished T-Bot II measures 12 inches at its tallest point.

The teacher's guide includes six lessons with separate activities for grades 6-8 and 9-12. Students learn STEM concepts including the Cartesian coordinate system, simple machines, basic programming, mechanical advantage, and electromagnetism through the provided lessons and hands-on activities. The guide addresses how the lessons and activities meet standards set by the National Science Teachers Association (NSTA), the National Council of Teachers of Mathematics (NCTM), the International Technology and Engineering Educators Association (ITEEA), and the National Council of Teachers of English (NCTE). The 105-page guide is paperback and spiral-bound for ease of use. A hydraulic robot kit and an accompanying teacher's guide are typically used in an educational setting to demonstrate mechanics, robotics, and physics through hands-on activities and lesson plans.

Construction requires a screwdriver, scissors, a glue gun and glue slugs, and white glue (all sold separately). The T-Bot II can be mounted on the 34106 T-Bot II Base (sold separately).

Science education products incorporate applied math and science principles into classroom and homeschool-based projects. Teachers in pre-K, elementary, and secondary classrooms use science education kits and products alongside science, technology, engineering, and math (STEM) curriculum to demonstrate STEM concepts and real-world applications through hands-on activities. Science education projects include a broad range of activities, such as practical experiments in engineering, aeronautics, robotics, energy, chemistry, physics, biology, and geology.

Pitsco Education develops K-12 science, technology, engineering, and math (STEM) curriculum, educational kits, and classroom tools. The company, founded in 1971, is headquartered in Pittsburg, KS.

Whats in the Box?

• 59727 T-Bot II Teacher's Guide
• 34110 Laser-Cut Basswood T-Bot II Hydraulic Arm
• Laser-cut basswood sheets (3)
• 6ml syringes (8)
• 1-1/8-inch dowel
• 1-1/2-inch dowel
• 1-3/4-inch dowels (4)
• 2-inch dowels (3)
• 2-1/2-inch dowel
• 3/8-inch screws (8)
• 1/2-inch screws (2)
• O-rings (2)
• Nylon spacers (2)
• Plastic straw
• 8 feet of clear tubing
• Strip of hook-and-loop fastener
• Rubber band
• Resealable plastic bag
• Instructions

The Pitsco 39067 Aluminum TETRIX Heavy-Duty Channel is made of aircraft-grade aluminum, comes in a pack of two, and measures 160mm long to provide a robot's structural base for students in grades 9-12 building TETRIX robotics projects. The channel is made of 2mm thick aluminum for durability. Aluminum resists corrosion and tarnishing, and is lightweight. The hole pattern on this structural piece enables students to connect pieces together at angles, as well as horizontally and vertically. The channel can be cut to different lengths, drilled to add holes, or bent for custom designs. TETRIX products reinforce science, technology, engineering, and mathematics (STEM) concepts for students in grades 9-12 studying robotics and building a working robot that demonstrates engineering, simple machines, force, and Newton's laws of motion. Aluminum channels can be used in an educational setting to provide the body structure for a robotics project.

Science education products incorporate applied math and science principles into classroom and homeschool-based projects. Teachers in pre-K, elementary, and secondary classrooms use science education kits and products alongside science, technology, engineering, and math (STEM) curriculum to demonstrate STEM concepts and real-world applications through hands-on activities. Science education projects include a broad range of activities, such as practical experiments in engineering, aeronautics, robotics, energy, chemistry, physics, biology, and geology.

Pitsco Education develops K-12 science, technology, engineering, and math (STEM) curriculum, educational kits, and classroom tools. The company, founded in 1971, is headquartered in Pittsburg, KS.

The Pitsco 39069 Aluminum TETRIX Heavy-Duty Channel is made of aircraft-grade aluminum and measures 416mm long to provide a robot's structural base for students in grades 9-12 building TETRIX robotics projects. The channel is made of 2mm thick aluminum for durability. Aluminum resists corrosion and tarnishing, and is lightweight. The hole pattern on this structural piece enables students to connect pieces together at angles, as well as horizontally and vertically. The channel can be cut to different lengths, drilled to add holes, or bent for custom designs. It measures 32mm x 32mm x 416mm (H x W x L). (H is height, the vertical distance from lowest to highest point; W is width, the horizontal distance from left to right; L is length, the horizontal distance from front to back.) TETRIX products reinforce science, technology, engineering, and mathematics (STEM) concepts for students in grades 9-12 studying robotics and building a working robot that demonstrates engineering, simple machines, force, and Newton's laws of motion. Aluminum channels can be used in an educational setting to provide the body structure for a robotics project.

Science education products incorporate applied math and science principles into classroom and homeschool-based projects. Teachers in pre-K, elementary, and secondary classrooms use science education kits and products alongside science, technology, engineering, and math (STEM) curriculum to demonstrate STEM concepts and real-world applications through hands-on activities. Science education projects include a broad range of activities, such as practical experiments in engineering, aeronautics, robotics, energy, chemistry, physics, biology, and geology.

Pitsco Education develops K-12 science, technology, engineering, and math (STEM) curriculum, educational kits, and classroom tools. The company, founded in 1971, is headquartered in Pittsburg, KS.

The Pitsco 38007 TETRIX Bevel Gear and Polyoxymethylene Bearings Kit includes aircraft-grade aluminum 30-tooth bevel gears with bearings for students in grades 9-12 building TETRIX robotics projects. The two bevel gears mesh at 90 degrees to change the plane of rotation of a gear system to transfer the direction of motion. Bevel gears enable students to build robot parts such as platforms that can swivel horizontally for supporting sensors. Aluminum resists corrosion and tarnishing, and is lightweight. The polyoxymethylene (POM) bearings reduce friction between gears and the structural frame of a robot. POM, also known as acetal copolymer plastic, has high tensile and flexural strength, and is hard and fatigue resistant. TETRIX products reinforce science, technology, engineering, and mathematics (STEM) concepts for students in grades 9-12 studying robotics and building a working robot that demonstrates engineering, simple machines, force, and Newton's laws of motion. A bevel gear and bearing can be used to transfer the direction of motion in tools, domestic, industrial, and agricultural machines, and vehicles, among other mechanical applications.

Science education products incorporate applied math and science principles into classroom and homeschool-based projects. Teachers in pre-K, elementary, and secondary classrooms use science education kits and products alongside science, technology, engineering, and math (STEM) curriculum to demonstrate STEM concepts and real-world applications through hands-on activities. Science education projects include a broad range of activities, such as practical experiments in engineering, aeronautics, robotics, energy, chemistry, physics, biology, and geology.

Pitsco Education develops K-12 science, technology, engineering, and math (STEM) curriculum, educational kits, and classroom tools. The company, founded in 1971, is headquartered in Pittsburg, KS.

What's in the Box?

• 30-tooth bevel gears (2)
• Polyoxymethylene (POM) bearings (2)