What does the slope of T2 vs L represent?

What does the slope of T2 vs L represent?

The slope of T2 vs l graph is found to be constant at any place and is equal to 4π2g where g is the acceleration due to gravity at that place. Explanation: In a T2 vs l graph, with T2 in the Y-axis and l in th X-axis, slope = T2l.

What does the slope of graph between T2 and L of a pendulum give us?

The slope of the T² vs l graph of a pendulum gives the measured value of g (acceleration due to gravity).

What is the relation between L and T on simple pendulum Exp?

⇒l∝T2 (Equation of parabola)

How does length affect a pendulum swing?

The length of the string affects the pendulum’s period such that the longer the length of the string, the longer the pendulum’s period. This also affects the frequency of the pendulum, which is the rate at which the pendulum swings back and forth.

What type of graph do you expect between L and T2?

The graph L versus T is curved, convex upwards. The graph L versus T2 is a straight line.

What does the slope of a position vs time 2 graph represent?

The slope of a position graph represents the velocity of the object. So the value of the slope at a particular time represents the velocity of the object at that instant.

What is the shape of L versus T2 graph for a simple pendulum?

The graph L versus T2 is a straight line.

Why did we plot T2 vs L instead of just T vs L?

Terms in this set (10) Why did we plot T2 vs L instead of just T vs L? By squaring the entire equation, we make T2 linear with L. Suppose Sarah Smith is swinging on a swing at the park. If the chain is 3 meters long, what will be the period (time) of one swing?

What is the shape of L versus t2 graph for a simple pendulum?

What is the relation between period T and length L of a pendulum?

The formula for the period T of a pendulum is T = 2π Square root of√L/g, where L is the length of the pendulum and g is the acceleration due to gravity.

What is the relationship between pendulum length and period?

The period of a simple pendulum is directly proportional to the square root of length of the pendulum. The period of a simple pendulum is inversely proportional to the square root of the acceleration due to gravity.

Does a longer pendulum swing faster?

Shorter pendulums swing faster than longer ones do, so the pendulum on the left swings faster than the pendulum on the right. pendulums to one side, and then let them swing. Notice that, if you start them swinging at the same time, they return to their starting points at the same time.

What is the shape of the L T2 graph of a simple pendulum?

What is the relationship between the length of a simple pendulum and its period from the graph observed in the results?

What do the graph of distance vs time and distance vs time suggest?

If an object moves along a straight line, the distance travelled can be represented by a distance-time graph. In a distance-time graph, the gradient of the line is equal to the speed of the object. The greater the gradient (and the steeper the line) the faster the object is moving.

What does the slope of VS graph represent?

What does the slope represent on a velocity graph? The slope of a velocity graph represents the acceleration of the object. So, the value of the slope at a particular time represents the acceleration of the object at that instant.

What is the shape of T2 square of time period verses Ɩ length of the pendulum graph for a simple pendulum and why?

So, the graph between time period T and length l of the pendulum is a parabola.

Why the graph of T 2 as a function of m does not pass through the origin?

This graph will not pass through the origin and you should not use the origin as a data point. The x axis intercept will give you the value of μ while the slope gives you the value of k. The graph of T2 vs load m is linear but if μ is not negligible compared with loads m then T2 will not be proportional to m.

What is the relationship between T and L?

The relationship between the period T and the length l of a simple pendulum is T = 2π (Ig)12.

What is the relationship between period squared and length?

The square of the period is proportional to the string length, or, looking at it in terms of period, the period is proportional to the square root of the string length.