A particle is projected at a speed of u ...

A particle is projected at a speed of u = 40 m/s in vertically upward direction in a place where exists a horizontal uniform electric field E0. The specific charge of the particle is `(4g)/(3E_(0))` . (a) Find the time after projection, when speed of the particle will be least. (b) Find the time (after projection) when displacement of the particle becomes perpendicular to its acceleration. (c) Assuming that the particle has been projected from a great height and the electric field is present in large region, what angle the velocity of the particle will make with horizontal after a long time?

Text Solution

Verified by Experts

The correct Answer is:

(a). `(36)/(25)s`
(b). `(72)/(25)s`
(c). `tan^(-1)((3)/(4))`

Topper's Solved these Questions

ELECTROSTATICS
ARIHANT|Exercise Level 3|59 Videos
ELECTROSTATICS
ARIHANT|Exercise Level 3|59 Videos
ELECTROMAGNETIC INDUCTION
ARIHANT|Exercise Level 3|12 Videos
GEOMETRICAL OPTICS
ARIHANT|Exercise Level 3|9 Videos

Similar Questions

Explore conceptually related problems

A particle is projected vertically upwards in vacuum with a speed u .

A charged particle is projected perpendicular to the direction of uniform electric field. It's path in the region of the field will be

A particle is projected vertically upward with velocity u from a point A , when it returns to the point of projection .

A particle is projected with speed 'u' at an angle 60^@ with horizontal, then find the speed when its angle with horizontal changes to 30^@ .

A particle having mass m and charge q is projected at an angle of 75° to the horizontal with a speed u. A uniform electric field E=(mg)/(q) exists in horizontal direction. Find the time after projection when the velocity of particle makes an angle of 45° with horizontal.

A particle is projected with a speed u. If after 2 seconds of projection it is found to be making an angle of 45^@ with the horizontal and 0^@ after 3 sec, then:

A particle is projected from the horizontal x-z plane, in vertical x-y plane where x-axis is horizontal and positive y-axis vertically upwards. The graph of y coordinate of the particle v/s time is as shown . The range of the particle is sqrt3 . Then the speed of the projected particle is:

Which of the following particles will take the least time to complete a circle when projected with the same velocity perpendicular to a uniform magnetic field?

A point lilke paticle of mass 'm' (very small) is projected in the vertically upward direction where already exists, a uniform horizontal electric field barE . The field strength is such that qE=3/4mg , where q is the charge on the particle. After what time the radius of curvature of the charged particle will be minimum.

ARIHANT-ELECTROSTATICS-Level 2

In the figure shown sphere S(1),S(2) and S(3) have radii R,(R)/(2)and ...
Text Solution
|
An electron (charge = e, mass = m) is projected horizontally into a un...
Text Solution
|
A particle is projected at a speed of u = 40 m/s in vertically upward ...
Text Solution
|
A charged particle having mass m I projected in a uniform electric fie...
Text Solution
|
Electric field in xy plane is directed along positive y direction and ...
Text Solution
|
Two identical positive charges are placed at x=-a and x=a. The correct...
Text Solution
|
L shaped rod has equal and opposite charge (+- Q) spread along its bot...
Text Solution
|
Two point charges Q1 and Q2 lie along a line at a distance from each o...
Text Solution
|
A uniform electric field exists in a region of space. Potential at pot...
Text Solution
|
It is known that there exists a uniform electric field in a certain re...
Text Solution
|
The quarter disc of radius R (see figure) has a uniform surface charge...
Text Solution
|
Electric field in a three dimensional space is directed radially towar...
Text Solution
|
When a conducting disc is made to rotate about its axis, the centrifug...
Text Solution
|
Consider a cube of uniform charge density rho. The ratio of electrosta...
Text Solution
|
A metallic sphere of radius R has been charged to a potential of V = 1...
Text Solution
|
A conducting ball of radius r is charged to a potential V0. It is enve...
Text Solution
|
A thick conducting spherical shell of inner radius a and outer radius ...
Text Solution
|
A conducting liquid bubble of radius a and thickness t ( tltlt a) is ...
Text Solution
|
A point charge q has been placed at a distance x from the centre of a ...
Text Solution
|
There is a hemispherical shell having charge Q uniformly distributed o...
Text Solution
|