If `xyne0`, is `-x xx -y` definitely positive?

An object is moving in the x-y plane with the position as a function of time given by vecr = x(t)hati + y(t)hatj . Point O is at x = 0 , y = 0 . The object is definitely moving towards O when

A particle performs SHM about x=0 such that at t=0 it is at x=0 and moving towards positive extreme. The time taken by it to go from x=0 to x=(A)/(2) is____ time the time taken to go from x=(A)/(2) to A . The most suitable option for the blank space is

A body is at rest at x =0 . At t = 0 , it starts moving in the positive x - direction with a constant acceleration . At the same instant another body passes through x= 0 moving in the positive x - direction with a constant speed . The position of the first body is given by x_(1)(t) after time 't', and that of the second body by x_(2)(t) after the same time interval . which of the following graphs correctly describes (x_(1) - x_(2)) as a function of time 't' ?

Let x, y in (0, 1) such that there exists a positive number a (ne 1) satsifying log_(x) a + log_(y) a = 4 log_(xy) a Then the value of ((x)/(y))^(((y)/(x))) is …

A particle starts from the origin at time t = 0 and moves along the positive x-axis. The graph of velocity with respect to time is shown in figure. What is the position of the particle at time t = 5s ?

Find the angle formed by the line sqrt(3)x+y-5=0 from the positive direction of x -axis.

x xx (yxxz) = (x xx y)xxz

Two particles A and B move along the straight lines x+2y+3=0 and 2x+y-3=0 respectively. Their positive vector, at the time of meeting will be

A particle located at position x=0, at time t=0, starts moving along the positive x-direction with a velocity v^2=alpha x (where alpha is a positive constant). The displacement of particle is proportional to

A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at x=0 , where, x is the position of the car at any time 't'. The maximum displacement from the starting position will be :-