Question
Which of the following curves represents correctly the oscillation given by
The correct answer is:
Given equation
At
This is case with curve marked
Related Questions to study
A is a set containing n elements. A subset P1 is chosen, and A is reconstructed by replacing the elements of P1. The same process is repeated for subsets P1, P2, … , Pm, with m > 1. The Number of ways of choosing P1, P2, …, Pm so that P1 P2 … Pm= A is -
A is a set containing n elements. A subset P1 is chosen, and A is reconstructed by replacing the elements of P1. The same process is repeated for subsets P1, P2, … , Pm, with m > 1. The Number of ways of choosing P1, P2, …, Pm so that P1 P2 … Pm= A is -
The number of points in the Cartesian plane with integral co-ordinates satisfying the inequalities |x| k, |y| k, |x – y| k ; is-
The number of points in the Cartesian plane with integral co-ordinates satisfying the inequalities |x| k, |y| k, |x – y| k ; is-
The angle between the lines and is
Here we used the concept of cartesian lines and some trigonometric terms to solve. With the help of slope we identified the angle between them. Hence, these lines are perpendicular so the angle between them is 90 degrees.
The angle between the lines and is
Here we used the concept of cartesian lines and some trigonometric terms to solve. With the help of slope we identified the angle between them. Hence, these lines are perpendicular so the angle between them is 90 degrees.
The polar equation of the straight line passing through and perpendicular to the initial line is
The polar equation of the straight line passing through and perpendicular to the initial line is
The polar equation of the straight line passing through and parallel to the initial line is
The polar equation of the straight line passing through and parallel to the initial line is
The equation of the line passing through pole and is
The equation of the line passing through pole and is
The polar equation of is
Here we used the concept of polar coordinate system and also the trigonometric ratios to find the solution. So the equation is .
The polar equation of is
Here we used the concept of polar coordinate system and also the trigonometric ratios to find the solution. So the equation is .
The cartesian equation of is
Here we used the concept of the polar coordinate system and also the trigonometric ratios to find the solution. So the equation is .
The cartesian equation of is
Here we used the concept of the polar coordinate system and also the trigonometric ratios to find the solution. So the equation is .
Two tuning forks and are vibrated together. The number of beats produced are represented by the straight line in the following graph. After loading with wax again these are vibrated together and the beats produced are represented by the line If the frequency of is the frequency of will be
Two tuning forks and are vibrated together. The number of beats produced are represented by the straight line in the following graph. After loading with wax again these are vibrated together and the beats produced are represented by the line If the frequency of is the frequency of will be
If a hyperbola passing through the origin has and as its asymptotes, then the equation of its tranvsverse and conjugate axes are
Here we used the concept of polar coordinate system and also the trigonometric ratios to find the solution.
If a hyperbola passing through the origin has and as its asymptotes, then the equation of its tranvsverse and conjugate axes are
Here we used the concept of polar coordinate system and also the trigonometric ratios to find the solution.