RMIT School of Science is part of the Royal Melbourne Institute of Technology (RMIT) University in Australia. It is focused on various disciplines within the sciences, including but not limited to chemistry, environmental science, physics, and mathematics. The school aims to provide a high-quality education through innovative teaching methods, research initiatives, and collaborative projects. Students at RMIT School of Science can engage in practical learning experiences, research opportunities, and gain exposure to industry practices.

Robert A. Frosch is a notable figure in the fields of engineering, management, and research. He is best known for his role as a former Administrator of the National Aeronautics and Space Administration (NASA) from 1977 to 1981. Frosch played a significant part in overseeing various space programs during his tenure. He has also worked in the private sector and held positions in academia, contributing to advancements in technology, particularly in areas related to energy and engineering.

RR Lyrae variables are a type of short-period variable stars that are characterized by their pulsating nature. They are named after the prototype star, RR Lyrae, which was discovered in the constellation Lyrae. Here are some key features of RR Lyrae variables: 1. **Pulsation**: RR Lyrae stars exhibit periodic brightness changes due to pulsations in their outer layers. These changes in brightness typically occur over a period ranging from about 0.2 to 1 day.

Robert Aumann is an Israeli-American mathematician and Nobel laureate, best known for his contributions to game theory, a field that studies mathematical models of strategic interaction among rational decision-makers. Born on June 8, 1930, in Frankfurt, Germany, he moved to the United States with his family in 1938 to escape the Nazi regime. Aumann received his Ph.D.

Robert D. Hough is an American mathematician known for his contributions to the field of mathematics, especially in areas such as topology and geometry. He may also be recognized for his work in mathematical education or for other specific academic contributions. However, he is not as widely known as some other mathematicians, so details about his specific contributions or the context in which he is notable may require more specific information or sources.

Robert Marshak (1916–1992) was a prominent American physicist known for his contributions to the field of theoretical physics, particularly in particle physics and cosmology. He was involved in significant research and developments related to the quark model and played a role in advancing the understanding of fundamental particles. Marshak held various academic positions during his career, including serving as a professor and chair of the physics department at several universities.

Robert Shaw is a physicist known for his contributions to the field of experimental physics, particularly in areas related to condensed matter physics, materials science, and nano-fabrication. His work often involves the investigation of the properties and behaviors of various materials at small scales, including the behavior of electrons in solids and the development of new materials with unique properties.

The small icosicosidodecahedron is a convex Archimedean solid characterized by its unique arrangement of faces, vertices, and edges. Specifically, it is composed of 62 faces: 20 regular triangles, 30 squares, and 12 regular pentagons. It has a total of 120 edges and 60 vertices.

The small icosihemidodecahedron is a convex Archimedean solid that belongs to a class of polyhedra known for their vertex and face transitivity. It is a type of uniform polyhedron that features a combination of pentagonal and triangular faces.

The small rhombihexahedron is a type of Archimedean solid, which is a category of convex polyhedra with regular polygons as faces and identical vertices. Specifically, the small rhombihexahedron is characterized by having 12 faces that are all rhombuses, with the overall structure featuring 24 edges and 14 vertices. The shape can also be described as a type of polyhedron with 8 regular triangles and 6 square faces.

Topochemical polymerization is a specialized method of polymerization that involves the conversion of monomers into polymers through a mechanism that is influenced by the spatial arrangement of molecules in a solid-state or crystalline form. This process typically requires that the monomers be organized in a specific geometric arrangement, allowing for direct reactions to occur without the need for solvent, heat, or other conventional polymerization conditions.

A space-filling polyhedron, also known as a tessellating polyhedron, is a three-dimensional geometric shape that can fill space without gaps or overlaps when repeated. Essentially, when these polyhedra are arranged in a lattice or grid formation, they completely fill a volume without leaving any empty spaces. The most common example of a space-filling polyhedron is the cube, which can tile three-dimensional space perfectly.

A truncated hexagonal trapezohedron is a type of polyhedron that can be described as a solid formed by truncating (cutting off) the corners of a hexagonal trapezohedron. A hexagonal trapezohedron is one of the dual polyhedra of a hexagonal prism. It has two hexagonal faces (one at the top and one at the bottom) and six trapezoidal faces that connect the edges of the hexagons.

Cyclic olefin copolymers (COCs) are a class of thermoplastic polymers that are derived from the polymerization of cyclic olefin monomers. These materials are known for their unique combination of properties, which include high transparency, low moisture absorption, excellent chemical resistance, and good mechanical strength. COCs typically have a low density and can be molded easily into various shapes, making them suitable for a wide range of applications.

A Paley graph is a specific type of mathematical graph that is constructed from a finite field. It is named after the mathematician Arthur Paley. Paley graphs are particularly interesting in the fields of combinatorics and number theory, and they have applications in areas such as coding theory and the design of networks. ### Construction of Paley Graphs 1.

Bioplastic refers to a type of plastic that is either made from renewable biomass sources, such as plant materials, or is designed to biodegrade more easily than traditional plastics. There are two main categories of bioplastics: 1. **Bio-based Plastics**: These are primarily made from renewable resources like starch, cellulose, or polylactic acid (PLA) derived from corn or sugarcane.

Catalytic chain transfer is a process that occurs during the polymerization of certain monomers, particularly in free radical polymerizations. This mechanism involves the transfer of a growing polymer chain from one polymer radical to another, effectively controlling the molecular weight and structure of the resulting polymer. In catalytic chain transfer, a catalyst or transfer agent facilitates the transfer of the growing chain end to a new center, which can be another growing polymer chain or a small molecule.

Chain-growth polymerization, also known as chain reaction polymerization, is a method of synthesizing polymers in which the structure of the polymer grows by the sequential addition of monomer units. This process typically involves three main steps: initiation, propagation, and termination. 1. **Initiation**: This step begins with the formation of reactive species, such as free radicals, cations, or anions, which are necessary to initiate the polymerization process.

Compatibilization is a process used in material science and polymer chemistry to improve the compatibility and interaction between two or more immiscible polymers or materials. When two different polymers are blended, they may not mix well due to differences in their chemical structure, polarity, or other physical properties, leading to phase separation and poor mechanical performance. To achieve better dispersion, reduced phase separation, and enhanced properties, compatibilizers are often introduced into the blend.