ASSR is an open access journal, aims at rapid publication of concise research papers of a broad interest in Physical education fields. Subject areas include all the current fields of interest represented by the Committees of the Design Scientific Renaissance. ASSR welcomes papers and articles in sport and physical education, fields of ASSR includes but not limited to: sport for all; Exercise physiology; Moths of training and coaching;Sport’s performance and analysis
JACSTR is an open access journal, aims at rapid publication of concise research papers of a broad interest in computer science and information technology fields.
JALOR aims at rapid publication of concise research papers of a broad interest in laser and optics fields. Subject areas include all the current fields of interest represented by the Committees of the Design Scientific Renaissance. JALOR accepts papers and articles in fields, including but not limited to the following: Actuator; Detectors; Ferroelectric And Ferromagnetic Materials; Filters; Holography; Laser Accessories And Optics
Journal of Advanced Medical Research (JAMR) is an open access journal, provides rapid publication of various articles in the fields of Medical, Dentistry, Pharmacy, Comparative Veterinary and Medical sciences, and related disciplines. JAMR seeks to publish experimental and theoretical research results of outstanding significance in the form of original articles, reviews, case reports, short reports, or letters to the editor.
JASER is an open access journal, aims at rapid publication of concise research papers of a broad interest in science and engineering fields. Subject areas include all the current fields of interest represented by the Committees of the Design Scientific Renaissance.
JMMR aims at rapid publication of concise research papers of a broad interest in marketing fields. JMMR welcomes papers and articles in marketing fields, including but not limited to the following: Consumer behavior; CRM; Customer Knowledge Management; Advertising economies; Consumer modeling; Marketing research; Interactive marke
The Journal of Purity, Utility Reaction & ENVIRONMENT focuses upon six aspects of chemical engineering: chemical reaction engineering, environment chemical engineering, and materials synthesis and processing, catalyst surface reaction, optimization and control.
Coronavirus and COVID-19: All your questions answered
by Wyatt Burris (2020-10-25)
The spate of illness was first reported to the World Health Organization on New Year's Eve and in the following weeks was linked to a family of viruses known as coronaviruses, the same family responsible for the diseases SARS and MERS, as well as some cases of the common cold. A special WHO committee declared a public health emergency on Jan. 30 and later raised its global risk assessment for the coronavirus to "very high."
Now playing: Watch this: Coronavirus and COVID-19: Everything you need to know 5:50 The situation continues to evolve as more information becomes available. We've collated everything we know about the novel virus, what's next for researchers and some of the steps you can take to reduce your risk.
What is a coronavirus?
Where did the virus come from?
How many confirmed cases and deaths have been reported?
How do we know it's a new coronavirus?
How does the coronavirus spread?
How infectious is the coronavirus?
What are the symptoms of the coronavirus?
Is there a treatment for the coronavirus?
How to reduce your risk of the coronavirus
Now playing: Watch this: Deadly coronavirus detected in the US 1:41 What is a coronavirus?
Coronaviruses belong to a family known as Coronaviridae, and under an electron microscope they look like spiked rings. They're named for these spikes, which form a halo or "crown" (corona is Latin for crown) around their viral envelope.
Coronaviruses contain a single strand of RNA (as opposed to DNA, which is double-stranded) within the envelope and, as a virus, can't reproduce without getting inside living cells and hijacking their machinery. The spikes on the viral envelope help coronaviruses bind to cells, which gives them a way in, like blasting a door open with C4. Once inside, they turn the cell into a virus factory -- the RNA and some enzymes use the cell's molecular machinery to produce more viruses, which are then shipped out of the cell to infect other cells. Thus, the cycle starts anew.