The invariant quantities such as angular momentum, linear momentum and possibly energy (although that is generally considered thermodynamics) are all still conserved in special relativity.
What does happen however is that the equations for these invariants do change. For example, linear momentum according to Newton is simply mass times velocity but in Einstein's theory it becomes mass times velocity times a new thing called the gamma factor (which is almost equal to unity at low velocities so Newton did not detect it, but becomes very large close to the speed of light (the gamma factor is infinite at the speed of light)).
Special relativity also predicts the existence of spin which is related to angular momentum, but spin does not exist in Newton's theory.
Newton's First Law of Motion states that an object in motion stays in motion unless acted upon by an external force. When light passes near the sun, its path bends due to the sun's gravitational force acting as an external force, causing a deviation from a straight line. This effect is known as gravitational lensing and is a prediction of Einstein's general theory of relativity.
Mixing pulverized lime with bleach can produce chlorine gas, which is toxic and can cause respiratory issues, irritation, and potentially be fatal if inhaled in large quantities. It is important to avoid mixing these substances and to always use them separately in well-ventilated areas.
when the particle moves with the speed of light,the mass of the particle increases to infinity.... this is as per Einstein's theory of relativity....n its true.... some people say the mass decreases to zero when the particle travels with the speed of light....they are "INSANE"
An everyday example of Newton's first law of motion is when a car comes to a stop without applying brakes. This happens because the car continues to move forward due to inertia until a force (friction or brakes) acts to stop its motion. Another example is when a ball rolling on a flat surface eventually stops due to the force of friction balancing its forward motion.
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It depends on what these invariant quantities are. It is not enough to specify that something is invariant, you also need to specify under which operation these quantities do not change (= are invariant). In special relativity there is an operation called a Lorentz transformation which applies the effects of a speed increase, thus applying time dilatation and length contraction. A Lorentz invariant quantity is a quantity which remains the same under this transformation, i.e. it has the same value for every observer in an inertial frame. Examples of such invariants are the lengths of four-vectors, the generalizations of the common 3-dimensional vectors such as those indicating place and momentum. For example the 3d-vector for location (x,y,z) is joined with another quantity for the time dimension into a 4-vector whose length is Lorentz invariant. There are more Lorentz invariant quantities, some of them quite complex.
rings start collapsing to the centre
BLAH
Kepler's Laws describe what happens. Newton's Laws describes what happens and why. The why is the theoretical explanation due to Gravity.
It will give you a perfect square.
It will have no equilibruim and when you are pushing it you are using a force
1st Law
they have a large increase in salt in there body, very unpleasant taste horrible
This is not certain as there is no way to see below the event horizon. However some ideas can be reached using general relativity to mathematically analyze them.
as stated in newtons second law of motion- an object acted upon by an unbalanced force will accelerate in the direction of that force
No,what we call the laws of physics are just rules that were made to explain and predict what happens to real systems. We just assume that our laws are right until we have better more accurate ones. For example newtons second law F=ma worked very well for the sorts of things newton saw. But it isn't perfect at very high speeds and so we need relativity from einsten for these situations. In some situations even the best laws we have at the moment still don't explain well enough what is going on, for example why supernova explode or how to combine quantum mechanics and relativity.
newtons first