Now do this put-the-text-back-together activity.
This is the text (if you need help).
Scientists from two of the USA's elite universities have pioneered a new method of creating artificial muscles. The scientists have dubbed their discovery as a "soft robot". It is a 2.6-gram "muscle" that looks like a small bag with many water-filled compartments. It has been given amazing strength by supporting it with an origami-inspired structural framework. This allows the artificial muscle to lift an object that is 1,000 times its own weight. The New Scientist website said this weight-to-strength ratio is the equivalent of a newborn baby lifting a large 4WD car. The ground-breaking discovery could greatly benefit many areas of science, medicine, robotics and engineering.
The scientists are from the Massachusetts Institute of Technology and Harvard University. They are experts in the field of soft robotics. They said their new soft robot muscle can be made in just 10 minutes and costs less than one dollar. Researcher, professor Robert Wood, hopes to create "softer" robots that are more similar to humans. He said: "Humans are normally soft and brittle compared to the big industrial robots that you might find on an assembly line. The next step is to take this system and develop it into a fully functional robot." Dr Daniela Rus explained that the robots could be like the human hand. They could be strong enough to grip any object firmly, while being soft and gentle.
Comprehension questions- How many of the USA's elite universities were mentioned in the article?
- How much does the new artificial muscle weigh?
- What did scientists use as an inspiration when creating the muscle?
- How many times its own weight can the muscle lift?
- What did a website say the weight-strength ratio was like a baby lifting?
- What are the scientists expert in the field of?
- How much does the artificial muscle cost?
- What did a researcher say humans were, besides soft?
- What did a doctor say the robot muscle could be like?
- How did a doctor say the artificial robot could grip objects?
Back to the robotic muscles lesson.
