Home
Class 12
PHYSICS
A particle of mass 9xx10^(-31) kg having...

A particle of mass `9xx10^(-31)` kg having a negative charge of `1.6xx10^(-19)C` is projected horizontally with a velocity of `10^(6)ms^(-1)` into a region between two infinite horizontal parallel plates of metal. The distance between the plates is `d=0.3cm` and the particle enters 0.1cm below the top plate, THe top and bottom plates are connected, respectively to the positive and negative terminal of a 30V battery. Find the components of the velocity of the particle just before it hits one of the plates.

A

`V_(x)=10^(5)m//s`

B

`V_(y)=1.89xx10^(6)m//s`

C

`V_(x)=0`

D

`V_(y)=10^(5)m//s`

Text Solution

Verified by Experts

The particle will hit the upper plate because of attraction
Electric field = `(30)/(0.3xx10^(-2))=10000V//m`
Upward acceleration = `("force")/("mass")=(eE)/(m)=(1.6xx10^(-19)xx10000)/(9xx10^(-31))=1.78xx10^(15)m//s^(2)`
Take the initial direction of the particles as the x-axis and the field direction as the y-axis.
From, `v^(2)-v_(0)^(2)=2as`,
`v_(y)^(2)=2xx1.78xx10^(15)xx(0.1xx10^(-2))`
`v_(y)=1.89xx10^(6)m//s`
The initial velocity along the x-axis remains unchanged as there is no acceleration along the direction.
`therefore v_(y)=1.89xx10^(6)m//sandv_(x)=10^(5)m//s`
Promotional Banner

Similar Questions

Explore conceptually related problems

A particle of mass 9xx10^(-31) kg having a negative charge of 1.6xx10^(-19)C is projected horizontally with a velocity of 10^(6)ms^(-1) into a region between two infinite horizontal parallel plates of metal. The distance between the plates is d=0.3cm and the particle enters 0.1cm below the top plate, THe top and bottom plates are connected, respectively to the positive and negative terminal of a 30V battery. Find the components of hte velocity of hte paricle just before it hits one of the plates.

A particle having a mass of 0.5g carries a charge of 2.5xx10^-8C . The particle is given an initial horizontal velocity of 6xx10^4ms^-1 . To keep the particle moving in a horizontal direction

The force between the plates of a parallel plate capacitor of capacitance C and distance of separation of the plates d with a potential difference V between the plates, is.

A particle is projected at an angle theta =30^@ with the horizontal, with a velocity of 10ms^(-1) . Then

The plates of a parallel plate capacitance 1.0 F are separated by a distance d =1 cm. Find the plate area .

A parallel-plate capacitor has plates of unequal area . The larger plates is connected to the positive terminal of the battery and the smaller plate to its nagative terminal. Let Q+ and Q-be the charges appearing on the positive and negative plates respectively

Charges Q_0 and 2Q_0 are given to parallel plates A and B, respectively, and they are separated by a small distance. The capacitance of the given arrangement is C. Now, plates A and B are connected to positive and negative terminals of battery of potential difference V = 2Q_0//C respectively, as shown, then the work done by the battery is

The terminals of a battery of emf V are connected to the two plates of a parallel plate capacitor. If the space between the plates of the capacitor is filled with an insulator of dielectric constant K, then :

A parallel plate air capacitor has capcity C distance of separtion between plates is d and potential difference V is applied between the plates force of attraction between the plates of the parallel plate air capacitor is

A parallel -plate capacitor with the plate area 100cm^2 and the separation between the plate 1.0cm is connected across a battery of emf 24 volts .Find the force of attraction between the plates.