Small Biochemistry Molecular Model Molymod MMS-010 Spiring Enterprises
PART NO: 4AJ-9883110
Price: £26.86
Out of Stock (Ships in approx. 2 weeks)
Molecule 3D model set consisting of:
72 atom parts
- Made up of: 25 hydrogen (l,ll), 21 carbon (lll, lV), 13 oxygen (l, ll), 11 nitrogen (ll, lll, lV), 1 sulphur (ll), 1 phosphorus (lV)
50 links
- Made up of: 40 medium (grey) and 10 long flexible (grey)
Storage Box
72 atom parts
- Made up of: 25 hydrogen (l,ll), 21 carbon (lll, lV), 13 oxygen (l, ll), 11 nitrogen (ll, lll, lV), 1 sulphur (ll), 1 phosphorus (lV)
50 links
- Made up of: 40 medium (grey) and 10 long flexible (grey)
Storage Box
Molecular model system Molymod® The Molymod® system is an original, unique system of high quality molecular models. The set consists of a variety of atom parts and links designed to make a large number of possible structures relevant to a specific chemistry subject or use, e.g. Biochemistry, Organic or Inorganic. All sets are fully compatible. Atom parts are made of solid clouded plastic spheres. They are available with holes from 1 to 6 in the usual angular orientations. Product Specification: Product Type: Biochemistry Set, small Description: 72 atom parts, 40 links The Molymod® system is an original, unique system of high quality molecular models. The set consists of a variety of atom parts and links designed to make a large number of possible structures relevant to a specific chemistry subject or use, e.g. Biochemistry, Organic or Inorganic. Atom parts are made of solid clouded plastic spheres. They are available with holes from 1 to 6 in the usual angular orientations. All sets are fully compatible with each other. Molymod® are the best molecular model sets available, with colour-coded 3D educational models that are ideal for use by students and teachers at school, college and university. | |
Catalogue Number | 9.883 110 |
Manufacturer | Spiring Enterprises |
Manufacturer P/n | MMS-010 |
Description | 72 atoms, 40 links |
Type | Biochemistry Set, small |
PK | 1 |
Search words | Molecular model systems |