Statement that describes the difference that exists between an online identity and a real-life one is Online identities are more flexible.
Online identities can be regarded as the identity that is been presented on the internet and this is usually different from the real life identity.
This is because on internet different means can be used to have fake identity and this is different from real world.
We can conclude that difference between online identity and a real-life one is flexibility.
CHECK THE COMPLETE RELATED QUESTION BELOW;
What BEST describes the difference between an online identity and a real-life one?
Online identities are decided for you.
Online identities are short-lived.
Online identities are more flexible.
Online identities are forced on you
Learn more about online identity at:
brainly.com/question/7331447
Hi there!
Here are some career roadblocks that are completely out of your control:
#1 Problems managing stress
#2 Death of loved ones
#3 Losing your job
#4 Accidents putting you in difficult positions (car accidents, stuff like that, etc.)
#5 Your fellow co-workers treating you harshly (though you may try to get them to like you)
These are just a few examples. Hope this helps!
The answer is 45000. M is 0 at the point just after the game.
Gravity is force present between masses while electromagnetic forces are found between charges.
Nuclear forces are short range while electromagnetic forces are long range.
<h3>Electromagnetic force Vs Nuclear force</h3>
Nuclear force are short ranged while electromagnetic forces cover a wider range, it is dependent on the charges present. Unlike charges attract each other while like charges repel each other in electromagnetic forces.
Nuclear forces occur in the nucleus of an atom and it an attractive force. unlike electromagnetic forces nuclear force do not repel.
Hence we can conclude that ; Gravity is force present between masses while electromagnetic forces are found between charge and Nuclear forces are short range while electromagnetic forces are long range.
Learn more about Nuclear force : brainly.com/question/303835
