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OPTIKASCIENCE
DATA HARVEST
ERLER-ZIMMER
Maths Education
OPTIKASCIENCE
Section 02 - Physics / Wave's propagation
1. OPTIKASCIENCE
1.1. Section 01 - Kits
1.1.1. Physics Laboratory Sets
1.1.2. Basic Kits
1.1.3. Advanced Kits
1.2. Section 02 - Physics
1.2.1. Statics of solids
1.2.2. Dynamics
1.2.3. Translational motion
1.2.4. Rotational motion
1.2.5. Oscillatory motion
1.2.6. Inertia- Collisions - Two-dimension motion
1.2.7. Liquids
1.2.8. Gases and vacuum
1.2.9. Wave's propagation
1.2.10. Sound Waves
1.2.11. Molecular aspect of matter
1.2.12. Temperature and Heat
1.2.13. Geometrical Optics
1.2.14. Wave Optics
1.2.15. Optical Benches
1.2.16. Electrostatics
1.2.17. Electrical conduction
1.2.18. Magnetism and electromagnetism
1.2.19. Atomic Physics
1.3. Section 03 - Technique and Energy
1.3.1. Energy conversions
1.3.2. Renewable energies
1.4. Section 04 - Microscopy
1.4.1. On-field microscopy kits
1.4.2. Biological microscopes
1.4.3. Stereomicroscopes
1.4.4. Multimedia system
1.4.5. Microscopy accessories
1.4.6. Optical magnifiers
1.4.7. Prepared slides for microscopy
1.5. Section 05 - Biology
1.5.1. Botany
1.5.2. Zoology
1.5.3. Experiments on human beings
1.5.4. Human anatomy and DNA models
1.6. Section 06 - Ecology
1.6.1. Kit for environmental analysis
1.6.2. Items for sample's collection
1.6.3. Stations for the detection of air pollution
1.6.4. Digital instruments
1.7. Section 07 - Meterology
1.7.1. Instruments and weather stations
1.8. Section 08 - Astronomy and Earth Science
1.8.1. Rocks, fossils and minerals
1.8.2. Geological models
1.8.3. The Earth and the solar system
1.9. Section 09 – Chemistry
1.9.1. Periodic table of elements
1.9.2. Molecular models and atomic models
1.9.3. PH-meters
1.9.4. Refractometry
1.9.5. Polarimetry
1.9.6. Spectroscopy
1.9.7. Electrology
1.10. Section 10 – On-Line Science
1.10.1. Interfaces
1.10.2. MBL Sensors
1.10.3. USB Sensor
1.11. Section 11 – Drawing and Mathematics
1.11.1. Drawing
1.11.2. Enumeration
1.11.3. Logics
1.11.4. Fractions and percentages
1.11.5. Geometry
1.11.6. Mathematics on magnetic blackboard
1.12. Section 12 – Measurement Instruments
1.12.1. Lengths and angles
1.12.2. Volumes/Time intervals
1.12.3. Temperature
1.12.4. Density/Forces, weights and masses
1.12.5. Electrical devices
1.13. Section 13 – Lab Tools
1.13.1. Items and instruments
1.13.2. Electrical power sources
2. DATA HARVEST
2.1. Data Logging
2.1.1. Data Loggers
2.1.1.1. Data Logging Range
2.1.2. Sensors
2.1.2.1. Sensor Range
2.1.3. Apps
2.1.3.1. Cross-platform software
2.1.4. Accesories
2.1.4.1. All Accessories
2.2. Dynamics
2.2.1. Dynamics System
2.2.2. Software
2.2.2.1. Cross-platform software
2.2.3. Accessories
2.2.3.1. All Accessories
2.3. Teaching
2.3.1. Teaching Packs
2.3.2. Teaching Metarials
2.4. More Science
2.4.1. Smart Microscopes
2.4.2. Genecon Hand-Held Dynamo
2.4.3. Renewable Energy
2.5. Product Brochures
2.5.1. Primary Teaching Brochure
2.5.2. Secondary Teaching Brochure
3. ERLER-ZIMMER
3.1. Anatomical Models
3.1.1. Skeleton Models
3.1.1.1. Pelvises
3.1.1.2. Limbs
3.1.1.3. Full Body
3.1.1.4. Skulls
3.1.1.5. Spines
3.1.1.6. Bones
3.1.2. Organs & Structures
3.1.2.1. Respiratory System
3.1.2.2. Brain & Nerves
3.1.2.3. Urinary System
3.1.2.4. Skin-Hair-Nail
3.1.2.5. Head Models
3.1.2.6. Circulatory System - Blood Vessels
3.1.2.7. Circulatory System - Hearts
3.1.2.8. Circulatory System - Circulation
3.1.2.9. Liver
3.1.2.10. Muscular Models
3.1.2.11. Kidneys
3.1.2.12. Ears
3.1.2.13. Torsos
3.1.2.14. Digestive System
3.1.2.15. Teeth
3.2. 3D Anatomy Series
3.3. Medical Simulators
3.3.1. Auscultation
3.3.2. Endoscopy
3.3.3. Gynaecology
3.3.4. Skin Suture
3.3.5. Injection
3.3.6. Nursing
3.3.6.1. Chronic Wounds
3.3.6.2. Diabetes
3.3.6.3. Catheterisation
3.3.6.4. Nursing Dolls - Baby & Child Dolls
3.3.6.5. Nursing Dolls - Adult Dolls
3.3.6.6. Stoma Care
3.3.7. Cancer Prevention
3.3.8. Emergency
3.3.8.1. Airway
3.3.8.2. CPR - Baby & Child Dolls
3.3.8.3. CPR - Adult Dolls
3.3.8.4. All Dolls - Baby & Child Dolls
3.3.8.5. All Dolls - Adult Dolls
3.3.8.6. Rescue
3.3.8.7. Thorax
3.3.8.8. Trauma Simulation
3.3.9. X-RAY / CT
3.3.10. Pregnancy & Birth
3.3.11. Ultrasound
3006 Device for the study of the waves
With this simple device students can perform experiments on wave propagation and related phenomena. It is composed of an elastic rope with wood sleepers which visualize the vibratory state....
3011 Set of 3 elastic strings
To visualize the propagation of longitudinal and transversal impulses and their reflection and consequent creation of stationary waves.This set includes:1 elastic string Ø 4 mm, static length: 3 m, maximum extension length: 6 m.1 coil spring Ø 10 mm, static length: 50 cm, maximum extension length: 5 m.1 coil spring Ø 17 mm, static length: 50 cm, maximum extension length: 12 m....
3014 Stationary wave apparatus
The Stationary Waves Apparatus allows observation of the phenomenon of longitudinal and transversal stationary waves. The vibrator can be used with the low frequence signal generator (code 5718), which is not supplied with this apparatus. Equipment supplied 1 Electromagnetic vibrator 1 Elastic string 1 Coil spring 1 80 mm rod with fixing thumbscrew 1 Table clamp with pulley 1 Rod with hook 1 Metallic rod 10 x 750 mm 1 Base 1 Bosshead 9 masses 10 g ...
3014.1 Kit to study stationary waves
We recommend using the signal generator cod. 5718. Equipment supplied 1 Vibrator 1 Elastic cord 1 Coil spring 1 80 mm rod 1 Table clamp with pulley 9 masses 10 g ...
3015 Vibratore
The vibrator should be used with the low frequence signal generator (code 5718),which is not supplied with this apparatus.Height: 140 mmMass: 1 kgBase diameter: 80 mmImpedance: 8 ΩBase height: 80 mmPower: 10 WFrequency range: 0-20 kHz...
3025 Set of 2 coil springs
It is usefull to perform experiments on longitudinal and transversal waves’ propagation, on the creation of stationary waves, on reflection and on other wave-related phenomena. Includes coil spring Slinky 3025A and coil spring 3025B. Dimensions 1ª spring: Ø75×150 mm 2ª spring: Ø20×1900 mm....
3025A Slinky spring Ø75 x 150 mm.
3025B Coil spring Ø20 x 1900 mm.
3032 Ripple tank
OPTIKA Ripple Tank has the following advantages:-Simple to assemble-Easy of carry out the experiments-Reliable and repeatable results-Excellent visual resolution of the wave front The stroboscopic lamp is fitted with an extra-bright 3W LED, which is synchronised with the surface wave generator. The control unit is equipped with a digital display and allows to set or to stop the synchronism of the vibrator with the lamp, the modulation of wave amplitude and its frequency. The vibrator is of an electro-dynamic type. The tank is provided with two adjustable feet and with an easy-to-use drain pipe ending with a tap....
3037 Trolley for ripple tank
Thanks to this trolley, you can easily move the waveoscope from one classroom to another.It is very easy to assemble: the trolley is equipped with three trays that will allow you to store all the items needed to perform experiments....
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