Advertisements
Advertisements
प्रश्न
Suppose the magnitude of Nuclear force between two protons varies with the distance between them as shown in figure. Estimate the ratio "Nuclear force/Coulomb force" for
(a) x = 8 fm
(b) x = 4 fm
(c) x = 2 fm
(d) x = 1 fm (1 fm = 10 −15m).
Advertisements
उत्तर
First let us calculate the coulomb force between 2 protons for distance = 8 fm\[F = \frac{K q^2}{r^2}\]
\[ = \frac{9 \times {10}^9 \times (1 . 6 \times {10}^{- 19} )^2}{(8 \times {10}^{- 15} )^2}\]
\[ = 3 . 6 N\]
\[F_N = 0 . 05 N\]
\[\frac{F_N}{F_C} = \frac{0 . 05}{3 . 6} = 0 . 0138 N\]
For x= 4 fm
\[F_C = \frac{9 \times {10}^9 \times (1 . 6 \times {10}^{- 19} )^2}{(4 \times {10}^{- 15} )^2}\]
\[ = \frac{23 . 04 \times {10}^{- 29}}{(4 \times {10}^{- 15} )^2}\]
\[ = 14 . 4 N\]
\[ F_N = 1N\]
\[\frac{F_N}{F_C} = \frac{1}{14 . 4} = 0 . 0694 N\]
\[\text{ For }\ x = 2 \text{ fm } \]
\[ F_C = \frac{9 \times {10}^9 \times (1 . 6 \times {10}^{- 19} )^2}{(2 \times {10}^{- 15} )^2}\]
\[ = 57 . 6 N\]
\[ F_N = 10 N\]
\[\frac{F_N}{F_C} = \frac{10}{57 . 6} = 0 . 173\]
\[\text{ For }\ x = 1 \text{ fm } \]
\[ F_C = \frac{9 \times {10}^9 \times (1 . 6 \times {10}^{- 19} )^2}{(1 \times {10}^{- 15} )^2}\]
\[ = 230 . 4 N\]
\[ F_N = 1000 N\]
\[\frac{F_N}{F_C} = \frac{1000}{230 . 4} = 4 .34\]
APPEARS IN
संबंधित प्रश्न
A body constrained to move along the z-axis of a coordinate system is subject to a constant force F given by
`F = -hati+2hatj+3hatkN`
Where `hati,hatj,hatk` are unit vectors along the x-, y- and z-axis of the system respectively. What is the work done by this force in moving the body a distance of 4 m along the z-axis ?
A boy is sitting on a chair placed on the floor of a room. Write as many action-reaction pairs of forces as you can.
Is it true that the reaction of a gravitational force is always gravitational, of an electromagnetic force is always electromagnetic and so on?
List all the forces acting on (a) the pulley A, (b) the boy and (c) the block C in figure.
A neutron exerts a force on a proton which is
(a) gravitational
(b) electromagnetic
(c) nuclear
(d) weak
A proton exerts a force on a proton which is
(a) gravitational
(b) electromagnetic
(c) nuclear
(d) weak
The work done by the external forces on a system equals the change in
No work is done by a force on an object if
(a) the force is always perpendicular to its velocity
(b) the force is always perpendicular to its acceleration
(c) the object is stationary but the point of application of the force moves on the object
(d) the object moves in such a way that the point of application of the force remains fixed.
A block of mass 5.0 kg slides down an incline of inclination 30° and length 10 m. Find the work done by the force of gravity.
A box weighing 2000 N is to be slowly slid through 20 m on a straight track with friction coefficient 0⋅2 with the box. (a) Find the work done by the person pulling the box with a chain at an angle θ with the horizontal. (b) Find the work when the person has chosen a value of θ, which ensures him the minimum magnitude of the force.
Find the average frictional force needed to stop a car weighing 500 kg at a distance of 25 m if the initial speed is 72 km/h.
A particle of mass m moves on a straight line with its velocity varying with the distance travelled, according to the equation \[\nu = a\sqrt{x}\] , where a is a constant. Find the total work done by all the forces during a displacement from \[x = 0 \text{ to } x - d\] .
A 250 g block slides on a rough horizontal table. Find the work done by the frictional force in bringing the block to rest if it is initially moving at a speed of 40 cm/s. If the friction coefficient between the table and the block is 0⋅1, how far does the block move before coming to rest?
A uniform chain of length L and mass M overhangs a horizontal table with its two third part on the table. The friction coefficient between the table and the chain is μ . Find the work done by friction during the period the chain slips off the table.
A bicyclist comes to a skidding stop in 10 m. During this process, the force on the bicycle due to the road is 200 N and is directly opposed to the motion. The work done by the cycle on the road is ______.
A body of mass 0.5 kg travels in a straight line with velocity v = a x3/2 where a = 5 m–1/2s–1. The work done by the net force during its displacement from x = 0 to x = 2 m is ______.
A body is moving unidirectionally under the influence of a source of constant power supplying energy. Which of the diagrams shown in figure correctly shows the displacement-time curve for its motion?
A block of mass 1 kg is pushed up a surface inclined to horizontal at an angle of 30° by a force of 10 N parallel to the inclined surface (Figure). The coefficient of friction between block and the incline is 0.1. If the block is pushed up by 10 m along the incline, calulate
- work done against gravity
- work done against force of friction
- increase in potential energy
- increase in kinetic energy
- work done by applied force.
A cylinder of area 300 cm2 and length 10 cm made of material of specific gravity 0.8 is floated in water with its axis vertical. It is then pushed downward, so as to be just immersed. The work done by the agent who pushes the cylinder into the water is ______ J.
When force varies non-linearly with displacement, what method must be used to find work?
