And that is the S.I. unit of acceleration.
If you learn Physics, pay attention to the written below this sentence.
There are some cases that allow you to know what is the coefficient also (coefficient of 2x, for example, is 2). If an object moves kinematically, then you know it if the acceleration is known to be constant:
Constant speed=0 acceleration (then, 0 m/s^2).
Constant acceleration (different than 0): If Vf is the final speed of the moving body, Vi is the initial speed and "a" is its acceleration, then we know that: d=(Vf2-Vi2)/2a. Suppose that initial speed is zero, so we get: v^2/d=2a, so in kinematic movements where the acceleration is not changing, the coefficient of your slope is 2. In both cases, the graph representing that ratio is linear.
centripetal force = mass* velocity^2/ radius. And slope of centripetal force = mass/ radius. On a graph plot the Centripetal Force on the Y axis and the velocity square on the X axis.
changing the slope of the inclined plane changes the values for velocity because of the unbalanced external force exerted on the object increases the velocity.
Yes it does. Velocity = Displacement / Time. On a graph of displacement vs time, the slope is the velocity. Steeper slope = higher velocity, flatter slope = lower velocity.
The Slope (which represents acceleration) of a constant velocity graph is Zero.
If no other external forces act (apart from weight), the acceleration on a fixed slope remains constant. This is because acceleration is given by: a=gsino where g is the acceleration of free fall and o is the angle between the slope and the horizontal.
The tangent at a point on the position-time graph represents the instantaneous velocity. 1. The tangent is the instantaneous slope. 2. Rather than "average" velocity, the slope gives you "instantaneous" velocity. The average of the instantaneous gives you average velocity.
changing the slope of the inclined plane changes the values for velocity because of the unbalanced external force exerted on the object increases the velocity.
changing the slope of the inclined plane changes the values for velocity because of the unbalanced external force exerted on the object increases the velocity.
Yes it does. Velocity = Displacement / Time. On a graph of displacement vs time, the slope is the velocity. Steeper slope = higher velocity, flatter slope = lower velocity.
Velocity is the slope of the position vs. time curve.
The Slope (which represents acceleration) of a constant velocity graph is Zero.
If no other external forces act (apart from weight), the acceleration on a fixed slope remains constant. This is because acceleration is given by: a=gsino where g is the acceleration of free fall and o is the angle between the slope and the horizontal.
if there is a slope, the velocity is either increasing or decreasing. This is acceleration.
The slope of a time-distance chart would be a constant. The slope of a time-velocity chart would be 0.
First you have to resolve all forces into vertical and horizontal. If it on a slope take the reaction force as vertical and the slope as horizontal. Then equate the opposite forces, for example the friction and the driving force, and use maths to figure out the resultant.
The tangent at a point on the position-time graph represents the instantaneous velocity. 1. The tangent is the instantaneous slope. 2. Rather than "average" velocity, the slope gives you "instantaneous" velocity. The average of the instantaneous gives you average velocity.
velocity.
The slope of a line on a velocity-time graph is acceleration.