04 ASIMOV'S THIRD LAW OF ROBOTICS EXPLAINED #50LAM_ARTIFICIAL_INTELLIGENCE

Isaac Asimov's Three Laws of Robotics are foundational principles in science fiction and robotics ethics. The Third Law states: "A robot must protect its own existence as long as such protection does not conflict with the First or Second Law." This law introduces the concept of self-preservation in robots while maintaining human safety as the top priority. It highlights the balance between a robot's autonomy and its duties. This principle influences AI and robotic ethics debates, focusing on creating safe, effective, and autonomous machines. Explore how the Third Law impacts robot design, behavior, and decision-making, and its implications for future robotics innovations. Discover its role in storytelling and how it reflects humanity’s fears and hopes regarding artificial intelligence.

#Asimov #Robotics #ThirdLaw #AIethics #RobotSafety #ArtificialIntelligence #ScienceFiction #RoboticDesign #AsimovsLaws #FutureTech

Two years ago today, I finished my first Joe Abercrombie book, Half A King, and wrote a tiny 350-word review about it. I knew I had found something special right then - no surprise when, a few months later, I burned through Abercrombie's Third Law trilogy in a matter of days! Now, I haven't finished the Half a King trilogy yet but the time is fast approaching when I will. If you want to read any of my reviews and recommendations, you can either do a quick Google search for my personal blog, the Grimoire Reliquary, or you can head over at BookNest.eu where me and a couple of other awesome reviewers write plenty of words about fantasy, sci-fi and more. Additional Credit: The art piece I used as a backdrop for this quote was drawn by Jon McCoy for the Subterranean Press edition of Half A King. #bookshelf #bookstagram #bookreviewer #bookblogger #bookworm #joeabercrombie #bookquotes #book #bookcommunity #bookishpost #bookdragon #booknerd #halfaworld #thirdlaw https://www.instagram.com/p/B0adkldjz5f/?igshid=1sukophrocdh1

notp: steve/tony

my NOTP too | I don’t ship it | it’s okay | I ship it hard | OTP

i’ve gotten this one like so many times now it’s hilarious like listen yeah i hate it and it makes no sense

send me your notp

That's a wrap!!! Excellent team that felt like family so quickly. SUCH A BLAST! Can't wait for the final cut! #ThirdLaw #independantfilm #hardlyevenfilms

The Newtons Cradle Curve works on Newton's Third Law: For every action, there is an equal and opposite reaction.Buy Now: http://bit.ly/2vnYTCL #NewtonsCradle #thirdlaw #art&science #monsoonmagic

“Third Law” from Leprous, graphic lyrics image by Akari M.

The kitten is doing some physics #physics #kitten #science #newton #thirdlaw (at Jardin Real)

Cutting Edge Robotics:

Watch how this surgical minature robot stitches a grape back together!

via http://www.iflscience.com

For every action, there is an equal and opposite reaction.

This video discusses one of the most common misconceptions about the force of gravity and Newton's third law. Before you watch answer this:

Which has a stronger force of gravity, the Earth or the moon?

Now let the video explain why you are most likely wrong.

Newton's Third Law

Newton's third law states that when one object acts on another, the second object acts back with the same force in the opposite direction.

For Example:

  These diagrams don't show it, but in both situations the two objects that are acting on each other  are both moving. This is easy to understand with the hammer and nail situation.

If you have ever hammered something, you know that once you hit the nail, the the hammer bounces back slightly. This is because the force you exert on the nail to push it in is the same force that the nail exerts back on the hammer. 

The same thing happens with the ball on the wall. You can see the ball come back at you, but you don't see the wall move. Yes the wall does still move, but you can't tell because it is attached to the ground.

Another thing to notice (and it is easily seen with the ball and the wall) is that the forces are not balanced. The picture may make it look like the forces are balanced, because they are equal, but balanced forces refer to one object only. Since there is only one force acting on the ball and only one force acting on the wall, each object is unbalanced, allowing it to move.

Here are some examples that do show the equal and opposite reaction:

In the first two examples, remember that there is very, very little friction because of the wheels.

In the second example only the girl is pushing, the boy is not pushing back. However the girl still moves the same as the boy because when she pushes, he does push back, even though he doesn't try to. If the girl was on the ground, not on the skateboard, only the boy would have moved because the friction would have kept her in her place.

Also, you have probably blown up a balloon and let the air rush out of it to watch it zoom around the room at some point in your life. And when you did, the balloon did zoom around the room for a while. The third diagram says that the balloon should go upward with the same force as the air rushing out of it, not fly around for a while then fall. Confusing? Just remember, diagram three shows what would happen in a vacuum, where there is no gravity. When you let the balloon fly around the room gravity is pulling back down to the floor.

Now let's look at another example:

This shows the same general idea- the bullet flies out of the gun with a certain force (Fb) and the gun kicks back into the person with an equal force (Fg). If you have ever shot a gun of any size, you know what that kick feels like.

Here is where everything starts to tie together. Remember when I was talking about Newton's second law and I told you about the relationships between F, m, & a? Now think about this (and remember Fb=Fg):

The bullet has a small m, with (in comparison) a reasonably sized F acting on it. Therefore, there is a very large a. The gun has a larger m, with (in comparison) a smaller F acting on it. Therefore, there is a smaller a. This shows how F, m, & a connect and how the forces acting on two objects is the same, but what you see/feel from each object is different.

Here is another example to explain that concept:

The same force acting on a golf ball and truck will move the golf ball with a much bigger acceleration than the truck.  

 Here is a problem to think about:

If an astronaut is in space and he or she accidentally pushes against the spacecraft, he or she will accelerate forever away from the spacecraft (because space is a vacuum). How would the astronaut get back to his or her spacecraft?

Answer: The astronaut would just have to throw something. Why? Because the force he or she would exert on the object to throw it would then be equally exerted back on him or her. This would push the astronaut back in the direction of the spacecraft.