-- take the difference between the 'x' values of the two points; square it
-- take the difference between the 'y' vales of the two points; square it
-- add the two squares together
-- take the square root of the sum
The result is the distance between the two points.
Measure the distance between the two end points!
Assuming it's a graph of speed vs time, then between 2 times, the average is the distance (= area under the graph between those times) divided by the time difference.
graph it
Simply put, a velocity time graph is velocity (m/s) in the Y coordinate and time (s) in the X and a position time graph is distance (m) in the Y coordinate and time (s) in the X if you where to find the slope of a tangent on a distance time graph, it would give you the velocity whereas the slope on a velocity time graph would give you the acceleration.
A parabola has no endpoints: it extends to infinity.A parabola has no endpoints: it extends to infinity.A parabola has no endpoints: it extends to infinity.A parabola has no endpoints: it extends to infinity.
Measure the distance between the two end points!
The slope is the change in distance between any two points divided by the change in time between them.
Assuming it's a graph of speed vs time, then between 2 times, the average is the distance (= area under the graph between those times) divided by the time difference.
graph it
A travel time graph can be used to find the distance from the epicenter of an earthquake.
If it's on a graph (cartesian) then use Pythagoras. Assume endpoints are (a,p) and (b,q) length=sqrt((a-b)^2+(p-q)^2) ... where sqrt means square root. idk
Just count the wavelengths distance.
Besides obviously distance at any instant, on a connected, continuous distance-time graph, you can obtain instantaneous velocity and instantaneous acceleration.
The length of a line segment is called the distance. To find the distance, you need to know the coordinate of its endpoints given as (x1, y1) and (x2, y2) and the distance formula.
the distance from a epicenter to an earthquake :)
Simply put, a velocity time graph is velocity (m/s) in the Y coordinate and time (s) in the X and a position time graph is distance (m) in the Y coordinate and time (s) in the X if you where to find the slope of a tangent on a distance time graph, it would give you the velocity whereas the slope on a velocity time graph would give you the acceleration.
A parabola has no endpoints: it extends to infinity.A parabola has no endpoints: it extends to infinity.A parabola has no endpoints: it extends to infinity.A parabola has no endpoints: it extends to infinity.