The submicroscopic world will be grasped clearly through the HGS Polyhedron Molecular Model, the HGS Biochcmistry Molecular Model, and the HGS Realistic Molecular Model.

	The HGS Polyhedron Molecular Model Only three types of the basic components of the 'hedron-atomic-nuclei' models made of ABS resin are able to describe any symmetrical nature of variable atomic structures. They lead us to understand the concept of symmetry on molecular structures and the group theory with ease. The HGS Polyhedron Molecular Models are able to build thirteen metallic and ionic crystal systems except for the triclinic system. The molecular models will help lead you to best understand the fields of scientific research and education regarding inorganic chemistry and solid state physics. The flexible molecular models are designed to construct more complex lattice structures such as ... protein cells, various nucleic acids in biological science, various molecules in organic chemistry, and also impurities, point defects and various dislocations in solid state physics. Fine, flexible, stout , and durable arms, and the quality material make these complex models possible to be realized.
	The HGS Biochemistry Molecular Model This type of molecular model is designed with the scale factor of 1=1cm. One can easily imagine the actual size of the molecules by using the above mentioned scale factor. Models of macromolecules such as a various protein cell, a nucleic acid, and also a nucleic acid twisted by protein cells can be easily constructed with the minimized model. A set of a frame, stands and supporting rods with clamps will assist in balancimg the atom positions in the complex macromolecular models. These quality controlled parts also make it possible to accurately build up complex macromolecular models, and to obtain strong, distortion free, and lightweight complex macromolecular models.
	The HGS Realistic Molecular Model The HGS Space-Filling Molecular Model The HGS Space-Filling Molecular Model demonstrates a realistic view of molecular structures. In combinaton with the HGS Biochemistry Molecular Model, the space filling model(s) has colored spherical covers surrounding atomic nuclei. Diameters of covers are designed to be the same sizes that correspond with the degree of Van der Waals forces. Thirty-seven shapes of the 'Space-Filling' parts are connected to each other by the specially designed 'Washer-fasteners' which make it possible to construct any molecular models, even complex macromolecular models. You can easily combine the HGS Space-Filling Molecular Model with the HGS Biochemistry Molecular Model. The HGS Zeolite Molecular Model The colored spherical covers in the HGS Space-Filling Molecular Model can be replaced by transparent spherical covers. You can observe simultaneously the size of atoms and the connecting bonds between atom and atom. The epoch-making HGS Zeolite Molecular Models show the size of sieves in the Zeolite structures with precision. One can measure the sieve effect through visual observation, and more accurately by pushing gas molecule models into the sieves.

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New Product - The HGS Miniature GHz Antenna

The Miniature HGS Antenna is based on the
resonator of the 1/32 electro-magnetic wavelength.
Therefore, the HGS Antenna is able to be realized 1/8 in size of the
usual resonance antenna and act as a GHz microwave range.
This new product is realized based on the ample knowledge and experience
of production steps from the various HGS Molecular Models.
HGS extends their greatly accumulated knowledge from
the three-dimensional world in the atom-molecular
science to the four-dimensional time-space world.


The HGS Molecular Models are
produced on the basis of ISO-9000 Qualification System.

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HGS Molecular Structure Model HGS HINOMOTO PLASTICS CO., LTD. 1-10-24, Meguro-Honcho, Meguro-ku, Tokyo, Japan PHONE: +81-3-3714-7226 FAX: +81-3-3714-4657 E-MAIL(technical support): hgs@po.sphere.ne.jp E-MAIL(order support): t_kaneko@maruzen.co.jp