If time is the x-axis as expected then the x-intercept would be zero movement of the velocity.
A velocity time graph is still a velocity time graph - no matter the degree of detail that you look at it.
The distance travelled over the time period represented by the area under the v-t graph between the end points.
the physical quantity is distance and unit is meters
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.
The graph of velocity-time is the acceleration.
It means that the object was travelling away from or towards the point of reference with a velocity represented by the intercept at the start of the measurement, that is, at time t = 0.
The velocity of the object at time = 0
Initial position is got by the y-intercept
The velocity at the starting point (when t = 0).
If you started at zero velocity, yes.
a negative slope this is for my e2020 home boyz
A velocity time graph is still a velocity time graph - no matter the degree of detail that you look at it.
In such graphs the x-axis is usually (but not always) the time axis. The x-intercept represents the time(s) at which your position is at the starting point - either for the first time or later.
If your graph shows velocity on the vertical axis and time on the horizontal axis, then the slope of the graph represents the acceleration. More specifically, the slope of the graph at a specific point represents the acceleration at that instantaneous point in time. So if the slope of the graph doesn't change (i.e. the graph is a straight line), then the acceleration is constant and doesn't change over time. In calculus, this is represented as the derivative: The derivative of velocity with respect to time equals the acceleration.
It is radial the velocity in a direction towards or away from a fixed point of reference (the origin) at a given time. The velocity time graph takes no account of motion in a direction across the radial direction.
The distance travelled over the time period represented by the area under the v-t graph between the end points.
take the slope of every change in the velocity time graph and plot it