New products and highlights for 2022
Our new products, holistic solutions and further news that we will launch in 2022 for physics, chemistry and biology are presented here.
Visit us regularly on this page for the latest information.
Overview:
NEW: Science Lab Genetics student experiment set (February 2022)
NEW: Science Lab Fuel Cell student experiment set (February 2022)
NEW: Lab Docs in new Design (April 2022)
NEW: Learning management system (LMS) for student experiments (March 2022)
NEW: Experimental setup: Planck Constante (April 2022)
NEW: Science Lab Genetics Student experiment set
February 2022
Science Lab Genetics
The lastest Science Lab experiment set in the field of biology
With our latest experiment set of the student experiment system Science Lab, students can perform 11 experiments in the field of genetics from SII. They deal with the topics of genetics and analyses of forensic and medical diagnostics.
The equipment set "Genetics" serves as basis. Together with additional DNA kits, various topics can be addressed.
Experiment subjects
- Methods of DNA analysis
- Analysis of bacterial plasmid DNA
- Electrophoresis of lambda DNA
- Paternity analysis
- Genetic Fingerprint
Benfits at a glance
- Device container for 11 experiments
- Carry out modern biology experiments in the student experiment
- Methods and equipment knowledge: Work with equipment that is also used in biological laboratories
- Application reference through the use of experimental compilation to paternity analysis and genetic fingerprinting
- Little preparation time required by the teacher
Go directly to Science Lab Genetics equipment set HERE.
NEW: Science Lab Fuel Cell Student experiment set
February 2022
Science Lab Fuel Cell
The lastest Science Lab experiment set in the field of chemistry
With our latest experiment set of the student experiment system Science Lab, students can perform 15 experiments in the field of solar energy and fuel cell technology in SII. The students deal with the use of solar energy to generate electricity, with the storage of energy in the form of hydrogen gas and with its use by a fuel cell. In combination with the Mobile-CASSY 2 WIFI and the Electrochemistry box M, there are additional evaluation options that enable digital learning.
Experiment subjects
- The reversible fuel cell
- The electrolyser
- The fuel cell
- The solar module
- Energy use
Benefits at a glance
- Device container for 15 experiments
- With the Electrochemistry box M no separate power supply unit is necessary
- The reversible fuel cell can be used as fuel cell and electrolyser
- The electrolyser generates the required hydrogen: no separate hydrogen source necessary
Go directly to Science Lab Fuel Cell experiment set HERE.
Lab Docs in new design
April 2022
Lab Docs
Interactive, digital experiment instructions in new design
- Unique Lab Docs are available in a new interactive design
- Modern design inspired by media world familiar to students
- Even more intuitive operation thanks to self-explanatory design elements and horizontal “swiping”
- Works on all end devices, regardless of operating system and manufacturer
- Clearer and more structured layout of experiment protocol
- Experiment instructions also made easier to understand and more interesting thanks to greater integration of graphic elements
Learning Management System (LMS) for student experiments
March 2022
Use of learning management system (LMS) for student experiments
The distribution of digital experiment instructions has never been so easy!
Use modern experiment instructions via your LMS by linking the Lab Docs to an assigment in the learning platform.
Lab Docs are already supported by the following learning systems/platforms.
- Microsoft Teams for Education
- Moodle
- Other Moodle-based platforms
For detailed information and an overview of all functions please click HERE.
New experimental setup: Planck constant
April 2022
New experimental setup in demonstration
- Planck Constant
Determining the Planck constant - Recording the current-voltage characteristics, measuring in a compact assembly
In the experiment P6.1.4.6 the light of different coloured LEDs falls on the photocathode. Reverse voltage at the anode is varied and the resulting current is measured with high sensitivity. Planck constant h is determined from the change of the characteristic curves when illuminated with different wavelengths. A characteristic voltage is determined as the reverse voltage for each characteristic curve, above which only a few electrons reach the anode.
Go directly to demonstration experiment P6.1.4.6
What makes this demonstration experiment so unique?
- Convenient and easy-to-understand set-up on the table
- Significant reduction of leakage currents thanks to the set-up
- Determination of the Planck constant possible with LEDs as well as with the high-pressure mercury lamp in combination with interference filters
- Current measurement via new nanoampere box
- Measurement takes place with the Sensor-CASSY 2
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| Voltage source -5 … 5 V | Table-top housing with photocell | Interference filter holder | LED lamps in differen colours |