Made for - Pear - 12.00X08.00 mm Stone - Tarnish Resistant Solid 925 Sterling Silver Curved Notched Wedding Band for 12x8mm Pear Ring Guard Enhancer - Size 7.5 - 925 Sterling Silver GUARANTEED, Authenticated with a 925 Stamp
Product Details Ring Size 7.5 Shank Base Thickness = 1.69mm Shank Base Width = 1.9mm Shoulder Width = 2.05mm Top Height = 1.9mm Surface Finish = Polished Top Dimensions = 3.19mm
Sonia Jewels Internal Category: Band / Tarnish Resistant Sterling Silver / Pear / 12.00X08.00mm / Polished / Band = Band = Engagement = Mountings = Rings = Matching Band = = Rings
Ring Size - 7.5
Shank Base Thickness - 1.69mm
Shank Base Width - 1.9mm
Shoulder Width - 2.05mm
Top Height - 1.9mm
Surface Finish - Polished
Top Dimensions - 3.19mm
Sonia Jewels Internal Category: Band / Tarnish Resistant Sterling Silver / Pear / 12.00X08.00mm / Polished / Band - Band - Engagement - Mountings - Rings - Matching Band - - Rings
Made for - Pear - 12.00X08.00 mm Stone - Tarnish Resistant Solid 925 Sterling Silver Curved Notched Wedding Band for 12x8mm Pear Ring Guard Enhancer - Size 7.5
ESCAPE - The European Science Cluster of Astronomy & Particle Physics ESFRI Research Infrastructures has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement no. 824064.
The ESFRI Science Analysis Platform (SAP) is a platform-service gateway with the capability to access and combine data from multiple collections and stage for subsequent processing and analysis. It allows data discovery and handling of large and distributed data collections. It is a flexible science platform for the analysis of open access data available through EOSC, givin...
The ESCAPE Citizen Science (CS) is an ambitious astronomy and astroparticle physics programme of scientific and public engagement that trains and educates the community in the usage and implementation of the ESCAPE services and ESFRI facilities, in line with the FAIR principles. The ESCAPE CS programme engages the society at large, name...
The ESCAPE Data Infrastructure for Open Science (DIOS) is a federated data infrastructure of open access data that enables large national research data centres to work together and build a robust cloud-like service to curate and scale up to multi-Exabyte needs. The ESCAPE DIOS is a cloud of data services that follows FAIR data management principles at the...
The ESCAPE Open-source Scientific Software and Service Repository (OSSR) is a sustainable open-access repository to share scientific software and services to the science community and enable open science. It will house astro-particle-physics-related scientific software and services for data processing and analysis, as well as test data sets, user-support documentation, tut...
The Virtual Observatory (VO) for astronomy integrates distributed infrastructures into one single virtual astronomy facility. ESCAPE supports the integration of the various multi-messenger ESFRI facilities and other research infrastructures into the EOSC through the VO framework, to ensure that their high-level scientific products and big data sets are openly accessible....
The birth, life and death of Objects from the Universe
Astrophysics is a branch of space science that applies the laws of physics and chemistry to explain the birth, life and death of stars, planets, galaxies, nebulae and other massive objects in the universe. The study of our universe will continue as long as the universe exists. ESCAPE is tackling fundamental problems of dark energy, dark, matter, high energy astrophysics, etc., using giant, complex data sets, high performance computing and high throughput computing. Know more about the Astrophysics Science Projects working with ESCAPE to generate and validate ESCAPE services.
Particle physics is a branch of physics that studies the elementary constituents of matter and radiation, and the interactions between them. It is also called "high energy physics", because many elementary particles do not occur under normal circumstances in nature, but can be created and detected during energetic collisions of other particles, as is done in particle accelerators. ESCAPE is tackling fundamental problems of high energy particle and astroparticle physics using giant, complex data sets, high performance computing and high throughput computing. Know more about the Particle Physics Science Projects working with ESCAPE to generate and validate ESCAPE services.