around $90,000
yes, everyone in a moving vehicle must wear seat belts or receive ticket.
If the laws of gravity work in Mass. the same as they do in the rest of our universe, the technical answer follows. Have you ever hit your finger while nailing something. Well think of this as having hit your finger, now your waiting for the pain to start (and it will).
This was answered in another post, but i will post again and say that most tickets that are unpaid do not just get forgotten. A warrant can be issued due to tickets that are unpaid. I have arrested several people that have had warrants for failure to pay tickets. Usually you will be let go as soon as the ticket is paid. If there were a time limit then everyone would just not pay and wait it out.
Recall a fundamental postulate of relativity -- that one can not define the velocity of an object except in reference to a frame. Thus, we can NOT say an object is "speeding" unless we also define against which frame we are making measurements. In an object's own frame, its own mass never changes. In a frame that views such an object as "speeding," the mass of the object will be greater than it is in its own frame. Not "mistaken to be" greater, not "viewed as" greater, not "seems to be" greater, not "appears to be" greater. The mass IS greater in that second frame.
No, it is an equipment violation.
It has no direct affect on the speed of an object. It does affect the energy content of the speeding object.
It has no direct affect on the speed of an object. It does affect the energy content of the speeding object.
no, a force is not something an object has, like mass, but is part of an interaction between one object and another.
I am positive that it is definetly aound about 300miles and 480km in america
Meteor Crater, AZ. However, I personally think that the collectible alien-headed demitasse spoons available at the gift shop there are in poor taste.
It is KINETIC energy- mass in motion. Prior to being fired, the cartridge has POTENTIAL energy- stored, but not released (yet)
If you measure the mass of a movjng object as it moves through your laboratory, you'll always find that it has more mass than it had when it was just sitting on the shelf. The faster it's moving through your laboratory, the greater its mass will be. It doesn't matter whether it's accelerating or not.