I have a 2005 Nissan Altima that makes a very loud and very loose sound when going over small, medium, and large bumps. I took it to the local shop and had it checked out. Struts are fine, suspension and really the whole front end was tight. I feel like there must be a loose something that is rattling and hitting the tops of the towers or maybe its a dashboard problem? Any suggestions?75,000 milesAny help is appreciated
The observed rate at which time passes for an object depends on the object's velocity relative to the observer and also on the strength of gravitational fields, which can slow the passage of time. When dimensions are understood as mere components of the grid system, rather than physical attributes of space, it is easier to understand the alternate dimensional views as being simply the result of coordinate transformations. Spacetimes are the arenas in which all physical events take place—an event is a point in spacetime specified by its time and place. For example, the motion of planets around the sun may be described in a particular type of spacetime, or the motion of light around a rotating star may be described in another type of spacetime. The basic elements of spacetime are events. In any given spacetime, an event is a unique position at a unique time. Because events are spacetime points, an example of an event in classical relativistic physics is (x,y,z,t), the location of an elementary (point-like) particle at a particular time. A spacetime itself can be viewed as the union of all events in the same way that a line is the union of all of its points, formally organized into a manifold, a space which can be described at small scales using coordinates systems. In general relativity, Einstein said that Gravity is causing a motion like effect so there for we get credit for moving through the cosmos at ..1g.. because that is the gravitational force here at the surface of the Earth, If we where to go to the moon we would only get credit for moving through the cosmos at a speed relative to the Moons gravity.. this is how massive objects play a part in general relativity..because there gravity is causing space to act/think your moving through it even if we are standing still.
Dude you got your money; all this suit would do is clog up an already congested judicial system with yet another frivolous suit. Let it go.
The universe was considered a 4d plane, with 3 dimensions of space and one time. By combining space and time, it can be considered a 3 dimensional plane. Einstein imagined the universe as a giant rubber sheet stretched out across a hollow table top. The rubber sheet was the space time. Now, if you place a heavy object on the rubber sheet, it will create a depression around it. Suppose you place a big ball on the sheet, it will create a depression around itself. if you place a smaller ball in the depression, the small ball will spiral towards the big ball. So, the big ball can be imagined as the Earth and just as the big ball caused a depression in the sheet, Earth causes a depression in space time. The small ball can be viewed as the moon, it feels the gravitational effects of the Earth. This image will help you understand it better:
First of all, Newton and Einstein don't agree precisely under extreme conditions, (like Black Holes), or very close measurement. 'Time', (and its rate variations), must be factored in to explain the differences. It was Einstein's explanation of anomalies in the Newtonian computations of the orbit of Mercury that was one of the first validations of his Theory.
