When you think anemometer, you probably don’t think “load cell” — but (statistically speaking) you probably don’t live in Hurricane Country, which is hard on wind-speed-measuring-whirligigs. When ...

Researchers from UC San Francisco and Cedars-Sinai have developed a new way to prompt stem cells to form specific organs. It sets the stage for growing human organs from scratch – a long-time goal of ...

Parenting is often romanticized as a shared journey, yet it carries an invisible and profoundly impactful burden: the mental load. Recent research from the University of Bath reveals the reality of ...

Billions of cells die in your body every day. Some go out with a bang, others with a whimper. They can die by accident if they’re injured or infected. Alternatively, should they outlive their natural ...

This school year, many of the nation's adolescents and teens are sitting in class without the device that can sometimes feel like an added appendage: their smartphones. States such as Florida, Indiana ...

We’re born, we live, and we die but new studies exploring the phenomenon of dead cells taking on new functions after death, also known as the “third state,” is complicating that picture. In a research ...

Human blood stem cells have been made in a laboratory for the first time, which could significantly improve how we treat certain types of cancer. The lab-grown cells have so far only been tested in ...

The HX711 chip emits unrealistically low raw numbers, such as 2100 or 21000 for a 5kg or 50kg load cell #include "HX711.h" HX711 scale; void setup() { Serial.begin(9600); Serial.println("Initializing ...

New research gives insight into when the ancestor of all living things lived, and it's earlier than we thought. When you purchase through links on our site, we may earn an affiliate commission. Here’s ...

When it comes to running these days, wearables have become a part of the “uniform.” If you sift through race photos, you’ll probably see both recreational and professional runners looking down at ...

Researchers have developed nanorobots that kill cancer cells in mice. The robot's weapon is hidden in a nanostructure and is exposed only in the tumour microenvironment, sparing healthy cells.