A time travel curve measures the relationship between time dilation and the velocity of an object moving through space. It shows how time is affected by speed, with faster speeds leading to slower passage of time due to relativistic effects.
Miles is a measure of distance, not time. The relation between distance and time is the measurement of how much time it takes an object to travel a specific distance at a specific rate of travel (speed).
Velocity is the slope of the position vs. time curve.
The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.
You can measure a curved line on a map by using a string or measuring tape to match the curve and then measuring the length against a ruler or a map scale. Alternatively, you can break down the curve into smaller straight line segments and then add up their lengths to get an estimate.
If you want to measure the speed of something, you first have to recall that speed is (distance traveled) divided by (time to travel the distance), and then you realize that you have to measure the distance it travels and the time it takes to travel that distance. If it happens to be the speed of light, then you immediately have a serious problem. The speed of light is so great that ... -- If you pick a distance that's easy to measure, then the time is impossibly short. For example, if you pick ten miles, then you have to accurately measure 0.00005368 of one second, which is pretty tough. -- If you pick a time that's easy to measure, then the distance is ridiculously long. For example, if you pick 0.1 second, then you have to accurately measure 18,628.2 miles, which is enormously tough. Both of these methods are theoretically and technically perfect, and completely impossible to actually use for the speed of light. You have to invent whole new clever ways to measure speed.
To measure the distance from the epicenter.
A seismic travel time curve describes the relation between the travel time of a seismic wave and the epicentral distance. It is used to calculate the calculate the distance of the earthquake's epicenter from the seismograph.
i only know that it is used to measure the distnace from the epicenter
A travel-time curve is a graphical representation that illustrates the relationship between the travel time of seismic waves and their distance from a seismic source. It typically plots the travel time on the vertical axis against the distance on the horizontal axis, showing how different types of waves (such as P-waves and S-waves) propagate through various geological materials. The curve helps geologists and seismologists determine the depth and location of seismic events by analyzing the arrival times of these waves at various monitoring stations. Each wave type has a distinct slope on the curve, reflecting its speed and the medium it travels through.
The curve is referred to as the meniscus.
You measure from the bottom curve of the meniscus.
velocity = distance travelled/time taken to travel that distance
Along a geodesic curve.
Miles is a measure of distance, not time. The relation between distance and time is the measurement of how much time it takes an object to travel a specific distance at a specific rate of travel (speed).
The answer is 8km/s
Yes, that can be true but it depends on the axes of the curve.
It depends on where arc XY is: on a circles, a parabola or some other curve; and what else you know about the curve.