Geometry

Lara's picture

Quartz Molecule

Submitted by Lara on Fri, 29/07/2016 - 06:25
Quartz molecule

All matter in the world is compounded from basic units of measurements called atoms. Atoms are made up of protons and neutrons, making the nucleus in the centre and electrons, which are much lighter in rings around it. Elements are substances made from only one type of atom, although when different atoms combine, they form compounds, or molecules. In a compound the atoms are being held together with chemical bonds. In this blog, I will be talking about the structure and characteristics of the molecule quartz.

cpark's picture

Sodium Flouride 3D Model

Submitted by cpark on Thu, 28/07/2016 - 22:51
My partner and I have choosen Sodium Flouride to base this blog on and create a virtual 3D model of it. In this blog I will show the 3D model of the Sodium Flouride made by using the VR maths program. Then I will give details on the composition, structure, and characteristics of the molecule. Further information, questions, interesting ideas and difficulties faced in the programming will be discussed. Links for the logo and code used will be provided. 
gclem11's picture

Potassium Atom

Submitted by gclem11 on Thu, 28/07/2016 - 16:39
Potassium Atom Model

Grace Clemens

Rangerence's picture

The Potassium Atom

Submitted by Rangerence on Thu, 28/07/2016 - 13:00

Potassium is a chemical element classified the atomic symbol 'K' on the Periodic Table. As the seventh most abundant element on Earth (2.6% abundance in Earth's crust), potassium is found in a wide array of industries, despite being commonly known for its integral role as a mineral that allows human cell function and its presence in bananas. Some applications of potassium are (but not limited to) potassium-based fertilisers, pharmaceuticals and manufacturing. Discovered in 1807 by Sir Humphrey Davy, its abundance and simple atomic structure has allowed for exhaustive research and application regarding potassium. 

mfang4's picture

Acetic acid molecule

Submitted by mfang4 on Wed, 27/07/2016 - 21:18

There are millions of things that exist on Earth, all of which are formed by atoms which are basic building blocks of matter.Every atom contains its unique atomic composition as well as chemical and physical properties. They combine to form molecules and crystal lattices in the form of an element or compound. The different combination of microscopic atoms create different substances.

kmach12's picture

Magnesium Atom

Submitted by kmach12 on Wed, 27/07/2016 - 18:43
Magnesium Atom

MAGNESIUM

By Krupesh Machhi

JADE's picture

Neon Atom by Jade Upton

Submitted by JADE on Wed, 27/07/2016 - 16:26
Neon Screenshot

An atom is the smallest particle of a chemical element; so consequently, atoms are the building blocks of matter and the world around us. I have modelled an atom of the chemical element Neon (Ne) through the website VRMath 2.0 using the skills I learnt during the workshop at QUT last Tuesday. The element Neon has an atomic number of 10, and its atom consists of 10 protons, 10 electrons, and in most cases and as depicted in the model, 10 neutrons. My partner Lauren and I decided on modelling this atom because we were intrigued about its properties as we had very recently learned of its existence and its role in neon signs. For this assignment, I created a 3D model of 20Ne using Bohr’s atomic model (below).

hbasn1's picture

Magnesium Atom

Submitted by hbasn1 on Wed, 27/07/2016 - 14:25
3D model of Magnesium

It is stated constantly that the various atoms making up the elements " are the building blocks of life", together forming almost all matter. Magnesium (Mg) is the ninth most common element on the periodic table and the eleventh most common element in the human body, by mass. In total, it is fairly abundant in the universe. It is an alkaline earth metal with an atomic number of 12 and atomic mass of 24.305. The structure of magnesium was modeled and constructed on VRmath, a 3D modeling software. This blog will cover the structure, composition and characteristics of magnesium, as constructed on VRmath, as well as any additional interesting facts.  

rgray73's picture

NaCl Lattice Blog Entry FINAL (Ryan Gray ASC091C)

Submitted by rgray73 on Wed, 27/07/2016 - 10:06
NaCl Lattice

By Ryan Gray ASC091C

This model is of a salt crystal lattice, with the chemical formula NaCl. Its different properties allow it to have many uses in society, including as a preservative, flavouring and currency. Salt demonstrates ionic bonding and its structure makes it interesting to model, because the crystal lattice can continue on forever and doesn't have a specific number of atoms like water does, with each water molecule consisting of one oxygen and two hydrogen atoms. For the purposes of this project, I limited my model to a 3x3x3 cube so it could be easily seen. The distance between the atoms was also expanded to allow the bonds to be more clearly viewed.

 

tduke6's picture

Carbon Dioxide

Submitted by tduke6 on Sun, 24/07/2016 - 21:47

Carbon dioxide is all around us: the bubbles in soda, dry ice for refrigeration and the gas in some fire extinguishers.

Carbon dioxide has a chemical formula of CO2, was 'discovered' in the 1750's by a Scottish physician Joseph Black and makes up 0.04% of the Earth's atmosphere.

In this blog post I will discuss carbon dioxide; the composition, structure and characteristics as well as its emissions.