So T is proportional to sqrt(l).
Since both must be positive, the graph of T against L is the shape of the positive square root function.
So T is proportional to sqrt(l).
Since both must be positive, the graph of T against L is the shape of the positive square root function.
So T is proportional to sqrt(l).
Since both must be positive, the graph of T against L is the shape of the positive square root function.
So T is proportional to sqrt(l).
Since both must be positive, the graph of T against L is the shape of the positive square root function.
So T is proportional to sqrt(l).
Since both must be positive, the graph of T against L is the shape of the positive square root function.
nah
The sine graph and the cosine graph are identical in shape, with the cosine graph shifted to the left by pi / 2, i.e. the sine starts at (x=0,y=0) and proceeds up with an initial slope of one, and the cosine starts at (x=0,y=1), and proceeds down with an initial slope of zero.
Trajectory is the path a projectile follows Parabola is the shape of this path
Sinusoid shape of the sine and cosine functions appear as oscillations. If an object is moving in a straight line and its position (function of time) can be described as sinusoid then it is referred to as a simple harmonic motion.
Hyperbolae with different eccentricities have a different angle between their asymptotes.
The graph of a quadratic equation has the shape of a parabola.
A Cooling curve graph changes shape.
The shape and slope of the line on a graph illustrates the qualitative and quantitative relationship between the variables plotted on the axes of the graph. Sadly, there is no such graph as a "speed or time" one.
A simple pendulum is an idealized system. It's requirements like the bob should be a heavy particle, suspension string should be massless, perfectly inextensible etc. cannot be achieved perfectly. On the other hand a compound pendulum is a rigid body of any shape capable of vibrating about a horizontal axis passing through it(not through the centre of gravity), so it does not have such ideal conditions. Hence it can give more accurate result. ( I think this is the answer, may be there are other advantages also)
If the Object is falling at a constant velocity the shape of the graph would be linear. If the object is falling at a changing velocity (Accelerating) the shape of the graph would be exponential- "J' Shape.
A bob is the weight on the end of a pendulum. It can take any shape, but is most often depicted as being round.
It takes the shape of a line.
When a graph shows a trend that is noticeable. Such as a line or a curve in a certain shape.
a J---
nah
It determines the location of the graph: left or right - but not its shape.
A parabola.