One hour #workout today. On verge of collapse. Will be so #swole tomorrow. All 42g of #protein in that protein drink is going straight to my legs as we speak. 😤💪
Do honey #bees adjust their metabolic rate depending on the air temperature? Some thought not but others thought they did. Now Jordan Glass & Jon Harrison show that the bees do adjust their metabolic rates to ensure that their #muscles always run smoothly
First snow yesterday so the #winter has officially arrived in Germany. Temperatures are dropping and making #workout in my not heated #basementgym a little bit less comfortable... But instead of quitting I call it #funnygymclothes time and keep #pushinghard
Facebook groups can be toxic places - #FacebookReminds A day after my joint replacement #surgery, I couldn't lift my leg up when I was laying on my back. The #Doctor told me that the reason why I felt almost like paralyzed was in the #muscles that were not attached yet. I was able to walk with crutches but I could not lift my #leg in a certain position. What one person said to me on FB group? Every #Finn should have that much #sisu (guts) that you can lift one leg up. 🙄 #suomimastodon#finland
I had to clean our Deke's cock from all the cum that had built up in the shaft. I was using cheap, off-brand cum and it didn't work well. Now I'm having it clean out its own shaft and piss the cleaner out so I can get full pressure ejaculation again
A new ferroelectric polymer that efficiently converts electrical energy into mechanical strain has been developed by Penn State researchers. This material, showing potential for use in medical devices and robotics, overcomes traditional piezoelectric limitations.
my #android buddy Bart malfunctioned during a sprint #training session, but his diagnostics couldn't determine the issue, so he called me and we tried to work through the issue. we got him booted into safe mode so he could make it home, then I proceeded to replace his motor function chip and he was good like new!
Artificial Muscles Flex for the First Time: Ferroelectric Polymer Innovation in Robotics (scitechdaily.com)
A new ferroelectric polymer that efficiently converts electrical energy into mechanical strain has been developed by Penn State researchers. This material, showing potential for use in medical devices and robotics, overcomes traditional piezoelectric limitations.