MP Board Class 11th Physics Important Questions Chapter 4 Motion in a Plane
MP Board Class 11th Physics Important Questions Chapter 4 Motion in a Plane
MP Board Class 11th Physics Important Questions Chapter 4 Motion in a Plane
Very Short Answer Type
Question 1.
State for each of the following physical quantities, if it is a scalar or a vector : Volume, mass, speed, acceleration, density, number of moles, velocity, angular
frequency, displacement, angular velocity.
Answer:
Scalar quantities : Volume, mass, speed, density, number of moles, angular frequency.
Vector quantities : Acceleration, velocity, displacement, angular velocity.
Question 2.
Pick out the only vector quantity in the following list:
Temperature, pressure, impulse, time, power, total path, length, energy, gravitational potential, coefficient of friction, charge.
Answer:
Impulse. As impulse = force × time = change in momentum . As force and momentum are vector quantities, so it is a vector.
Question 3.
What do you mean by magnitude of a vector quantity?
Answer:
The positive value of the modulus of a vector quantity is called magnitude of
vector quantity. It is represented by 
Question 4.
Whether addition of two vectors depends upon the order of placement of the vectors.
Answer:
No, according to the commutative law of vector addition 
Question 5.
Can two vectors of different dimension can be added?
Answer:
No, we can add two vectors of same dimension.
Question 6.
How can a vector and scalar be added?
Answer:
A vector and a scalar cannot be added.
Question 7.
How can three vectors be added so that its resultant is zero?
Answer:
If three vectors can be represented completely by the three sides of a triangle taken in the same order, then their resultant is zero.
Question 8.
What do you mean by unit vector and zero vector?
Answer:
If the magnitude of a vector is one then it is called as unit vector and if its
magnitude is zero and direction is uncertain is called zero vector, unit vector
Question 9.
What do you mean by resolution of a vector?
Answer:
When a vector is divided into two or more components such that their addition is the same vector then it is called resolution of vector.
Question 10.
Can the magnitude of component of vector more than its original vector?
Answer:
No, it cannot be.
Question 11.
Can a vector be multiplied with a scalar? Illustrate with example.
Answer:
Question 12.
When the scalar product of two vectors is maximum?
Answer:
When both the vectors are parallel, then angle between them is 0° or 180°. Then scalar product will be maximum.
Question 13.
Area of a surface is vector or scalar quantity?
Answer:
It is vector quantity because its direction is perpendicular to its surface.
Question 14.
Which type of quantity is modulus of a vector?
Answer:
Modulus of a vector is scalar quantity.
Question 15.
What do you mean by displacement vector?
Answer:
Displacement vector is those vector which specify that how much and in which direction an object has displaced in time intervel t1 and t2.
Question 16.
What do you mean by equal vectors?
Answer:
Two vectors whose magnitude and directions are same are called equal vectors.
Question 17.
Write the triangle law of vector addition.
Answer:
Triangle law of vector addition : If two vectors are represented by the adjacent sides of a triangle in a definite order. Then the
resultant will be given by the third side taken in the opposite manner.
Question 18.
Can a vector of IS dyne be added in a vector of 10 Newton?
Answer:
Yes, it can be added because dimensions of both physical quantities are same.
Question 19.
Why displacement vector and velocity vector cannot be added?
Answer:
They cannot be added because their dimensions are different.
Question 20.
What will happen if a vector is extended in its parallel direction?
Answer:
No changes will occur in vector.
Question 21.
When the addition of two vectors are maximum and minimum?
Answer:
When both the vectors are parallel the addition is maximum and when they are opposite their addition is minimum.
Question 22.
Can the resultant of two different vectors be zero?
Answer:
No, because the minimum magnitude of 
Question 23.
Whether addition of vectors depends on order they placed?
Answer:
No.
Question 24.
If P and Q are two vector quantities then PQ will be which quantity?
Answer:
It is a scalar quantity.
Question 25.
When vector product of two vectors is maximum?
Answer:
When two vectors are perpendicular to each other, then their vector product is maximum.
Question 26.
If a component of a vector is zero and other component of same vector is non-zero, can the magnitude of that vector be zero?
Answer:
No.
Question 27.
If the angle between two vectors are changed keeping magnitude to be same; then what will be the effect on resultant vector?
Answer:
Magnitude and direction of resultant vector will get changed.
Question 28.
When addition and subtraction of two vectors are equal?
Answer:
When the magnitude of both vectors are same and mutually perpendicular to each other then addition and subtraction of two vectors will be equal.
Question 29.
Answer:
No.
Question 30.
What is projectile motion? When does the trajectory is parabola?
Answer:
When a body is projected at an angle other than vertical, the body moves under gravity and falls at different points on the earth. The path traced out by the body is called trajectory and its motion is called projectile.
Example : Motion of cannon ball, the object released from an aeroplane flying horizontally. Trajectory is parabola when air of friction is negligible.
Question 31.
At what angle the horizontal range is maximum?
Answer:
Question 32.
From top of a tower two bullets are shot with different velocities in horizontal direction. Which one will reach on the ground first?
Answer:
Both bullets will reach the ground at the same time because initial velocity in vertical direction is same for them.
Short Answer Type
Question 1.
Establish the following vector inequalities geometrically or otherwise :
Proof:
We know from the property of a triangle that its one side is always less than the sum of the lengths of its two other sides.
Now in Δ OPQ,
OQ<OP+PQ
If the two vectors a and b are acting along the same straight line i.e., are collinear and in the same direction, then
θ (angle between them) = 0
Proof:
One side is more than the difference of two other sides i.e., in ΔOPQ in fig.
Question 2.
Explain scalar product of two vectors?
Answer:
Question 3.
What type of quantity is work?
Answer:
Since work = Force × Displacement
Since scalar product of two vectors are scalar, therefore work is a scalar quantity.
Question 4.
What type of quantity is kinetic energy?
Answer:
Question 5.
Prove that addition of vectors obeys commutative law.
Or
State and prove the commutative law of vector addition.
Answer:
Question 6.
Show that addition of vectors obey the associative law.
Answer:
In a plane choose origin O and construct
Question 7.
Explain the law of parallelogram of vector’s addition.
Answer:
If the two vectors acting at a point are represented in magnitude and direction by the adjacent sides of a parallelogram, then their resultant vector is represented in magnitude and direction by the diagonal passing through their common origin.
Question 8.
Write the expression of position vector, velocity vector and acceleration vector for a particle moving in a plane.
Answer:
Question 9.
What is the effect of air on the time of flight and range of projectile?
Answer:
Time of flight and range will be decreased.
Question 10.
A food packet is released from an aeroplane flying horizontally. What will be the path of packet:
(i) Seen from the plane and
(ii) Seen from the earth?
Answer:
(i) In a straight line vertically downward.
(ii) Parabolic.
Question 11.
An aeroplane is moving horizontally with uniform velocity. A bomb is dropped from the plane. What will be the position of plane, when the bomb strikes the ground?
Answer:
When the friction of medium is zero, the plane will be just above the point where the bomb strike the ground.
When the friction is not zero, the plane will be little ahead above the point where the bomb will strike the ground.
Question 12.
What will be the change in centripetal force when speed of an object and radius of path are doubled in circular motion.
Answer:
Question 13.
What do you mean by uniform circular motion? Give two examples.
Answer:
When a body moves in a circular path with constant speed, then its motion is called uniform circular motion.
Example: Motion of the tip of the blade of a fan, motion of the earth around the sun is nearly a uniform circular motion.
Question 14.
What do you mean by angular displacement?
Answer:
The angle suspended by the particle on the circular path in given time interval is called an angular displacement of the particle its unit is radian.
Question 15.
If the velocity of projectile motion is doubled then what will be the effect on its horizontal range?
Answer:
i.e., R ∝ u2
When velocity of projectile motion is doubled then its horizontal range get four times increased.
Question 16.
What do you understand by time-period and frequency?
Answer:
Time-period is defined as the time taken by an object to complete one rotation. Its unit is second. If the angular velocity of an object is a> and angle suspended at the centre during one complete rotation is 2π, then
Question 17.
Define linear velocity and angular velocity of a particle in circular motion. Establish the relation between them.
Answer:
Angular velocity :
The rate of change of angle subtended by a body moving in a circular path, at the centre of the path per second is called angular velocity of the body.
Linear velocity :
The distance travelled by the particle on the circular path in one second is called linear velocity.
Its SI unit is ms-1.
Relation between linear velocity and angular velocity:
Let a particle is moving in a circular path of radius r and centre O. Its linear velocity is v and angular velocity is ω
If in small time Δt, the particle travels distance Δs on the circle,
∴ ∠POQ = Δθ
Question 18.
Define centripetal acceleration and derive its expression. Also deduce its direction.
Answer:
Centripetal acceleration :
It is defined as the acceleration which always acts towards the centre along the radius of the circular path.
“Centripetal” comes from a Greek term which means “centre seeking”.
Expression for centripetal acceleration:
Let a body be moving with constant angular velocity? and constant speed? in a circular path of radius R and centre O.
Let the body be at points P and Q at time t and t + Δt respectively.
Also let Δθ= ∠POQ be the angular displacement in a small time interval Δt, thus
Also when Δt → 0, then L.H.S. of eqn. (4) represents acceleration. Thus eqn. (4) can be written as
Eqn. (6) gives the magnitude of the acceleration produced in the body.
Direction of acceleration :
Acceleration always acts in the direction of Δν which acts from b to c. When Δt is decreased, Δθ also decreases. If Δt → 0, then Δθ → 0, so Δν tends to be perpendicular in ab. As ab || PL, so Δν tends to act perpendicular to PL i.e., along PO is along the radius towards the centre of circular path.
Since ν and R are always constant, so magnitude of centripetal acceleration is also constant. But the direction changes pointing always towards the centre. So centripetal acceleration is not a constant vector.
Long Answer Type
Question 1.
State parallelogram law of vector addition of two vectors and derive an expression for their resultant vector.
Ans. Parallelogram law of vector addition : If the two vectors acting at a point are represented in magnitude and direction by the adjacent sides of a parallelogram, then their resultant vector is represented in magnitude and direction by the diagonal passing through their common origin.
Question 2.
What do you mean by two-dimensional motion? Establish the relation between displacement, velocity and acceleration.
Answer:
TWo-dimensional motion: When a body moves in a plane, its motion is called two-dimensional motion.
Example: Motion in circular path, motion of the bullet fired from the gun.
Question 3.
What do you understand by projectile motion? Prove that the path of projectile is parabolic.
Answer:
Projectile motion :
When a body is projected at an angle other than vertical, the body moves under gravity and falls at different points on the earth. The path traced out by the body is called trajectory and its motion is called projectile.
Example : Motion of cannon ball, the object released from an aeroplane flying horizontally. Trajectory is parabola when air of friction is negligible.
Let a body is projected with velocity u, at an angleθ with the horizontal. Thus, we have two components of u.
i.e., Horizontal component along X-axis = u cosθ
and Vertical component along T-axis = u sinθ
∵ The horizontal velocity is free from gravitational acceleration,
∴ ux = vx(0) = u cosθ and ax = 0
If x (t) is the position of the particle of any instant of time, then the displacement will be x(t) – λ(0),
But, λ(0) = 0
∴ x(t) – λ(0) = λ(t) = x
Now, for the vertical component,
vy = u sinθ and ay = -g, (∵ the particle moves in upward direction) If y(t) is the position of the particle at any instant of time, then the displacement will be y(t) -y(0)
But, y(0) = 0
∴ y(t) – y(0)=y(t) = y
Question 4.
Derive the expression for time of flight, horizontal range and maximum height attain for a projectile motion.
Answer:
Expression for time of flight: Let a body is projected with initial velocity u at an angle θ with the horizontal.
∴ The components of u are:
(i) Horizontal component, ux = u cosθ and
(ii) Vertical component, uy = u Sinθ
The time taken by the projectile to travel from point O to A, is called its time of flight.
Now, initial velocity along Y-axis is
uy=νy(0)=u sinθ
Now,at highest point
νy(t) = 0 and ay = -g
If the time taken by the projectile from O to P is t, then
νy(t)= νy(0)+at
or
0=u sinθ-gt
For maximum range, sin2θ = 1
or sin2θ= sin9o°
or 2θ = 90°
∴ θ =45°
For maximum range the angle of projection should be 45°.
Maximum height attain: Now, we have two resolved parts of initial velocity u, i,e.,
(i) Horizontal component ux = u cosθ and
(ii) Vertical component uy = u Sinθ.
Suppose, the maximum height of projectile is Hand it takes r sec. to reach the highest point.
Now, for vertical motion,
νy(0) = u sinθ and ay = -g
At highest point, νy(t) = 0
:. By the equation, νy(t)=νy(0)+ayt
or 0 = u sinθ – gt
Numerical Questions
Question 1.
Find modulus and unit vector of the vector
Question 2.
Question 3.
Question 4.
When the resultant of two equal vectors will be A.
Solution:
R2 = A2 + B2 + 2ABcosθ
Question 5.
Question 6.
Question 7.
Rain is falling vertically with a speed of 30 ms *. A woman rides a bicycle
with a speed of 10 ms 1 in the north to south direction. What is the direction in which she should hold her umbrella?
Solution:
Let the rain be falling vertically downward with the speed of 30 ms-1 along OA. The woman is moving along OS with a speed of 10 ms-1.
To protect herself from rain, the woman should hold her umbrella in the direction of relative velocity of the rain with respect to the woman i.e., νrw. To determine the νrw the woman must be brought to rest by imposing an equal and opposite velocity of the observer both on woman as well as on the rain. Rain thus has two velocities :
A cyclist is riding with a speed of 27 kmh-1. As he approaches a circular turn on the road of radius 80 m, he applies brakes and reduces his speed at the constant rate of 0.5 ms-1 every second. What is the magnitude and direction of the net acceleration of the cyclist on the circular turn?
Answer:
Question 9.
A ball is projected at an angle of 30° with a velocity of 20 ms-1. Find the time of flight.
Solution:
u = 20 ms-1, θ= 30°.
Question 10.
A cricketor can throw a ball to a maximum horizontal distance of 100 m. How much high above the ground can the cricketor throw the same ball?
Solution:
Given:
R = 100 m
Question 11.
A ball is projected at an angle of 60° with a velocity of 40 ms-1. What will be the maximum height and range?
Solution:
Question 12.
A body is projected at an angle of 15° and its range is 50 m. If it is projected at an angle of 45°, then find the range.
Solution:
Question 13.
A particle is executing 3 revolutions per second in a circular path of radius 15 cm. Find out angular velocity and linear velocity.
Solution:
Given r = 15 cm, frequency n = 3 revolutions per second
From ω = 2πn, we get
ω = 2 × π × 3 = 6π radian/sec.
Again, from ν = rω, we get
ν = 15 × 6π = 90πcm/sec.
Question 14.
In a projectile motion of the horizontal range and maximum height attain of an object is same, then find out the angle of projection of the object.
Solution:
Given, R = H
Question 15.
The coordinate of a particle moving in a plane at any time f is given by JC =
ct2 and y = bt2 Determine the velocity of the particle.
Solution:
Question 16.
For any projectile motion the horizontal range is four times of maximum height attain. Find out the angle of projection.
Solution:
Given R = 4 H
Question 17.
A bullet is fired with a velocity of 1,000 m/s from a rifle at an angle of 30° w.r.t horizontal, find out:
(i) Time taken to reach highest point from the rifle.
(ii) Total time of flight
(iii) What will be the velocity of bullet when it strike ground surface?
(iv) At what height the buUet will raise ?
(v) At what distance from the rifle the bullet will strike the ground surface?
Solution:
Question 18.
A football player kicks the football with a velocity of 20 m/s making an angle of 30° from the horizontal. Find out
(i) Time of flight
(ii) Maximum height attain by the football
(iii) Velocity of the football and its direction after striking the ground.
(iv) Horizontal range, (given g = 10 m/s2).
Solution:
Question 19.
An aeroplane is flying at a height of 1960 m with a velocity of 600 km/hr. When it is just above a point A on the earth, a packet is dropped, which falls at point B. Calculate AB.
Solution:
Objective Type
1. Multiple- choice questions:
Question 1.
1. Torque is a :
(a) Vector quantity
(b) Scalar quantity
(c) Both
(d) None of these
Answer:
(b) Scalar quantity
Question 2.
Question 3.
Question 4.
Angle between velocity and acceleration of maximum height of a projectile is :
(a) 30°
(b) 45°
(c) 60°
(d) 90°
Answer:
(d) 90°
Question 5.
Path of a projectile is :
(a) Circular
(b) Straight line
(c) Parabolic
(d) Uncertain.
Answer:
(c) Parabolic
Question 6.
For maximum range of a projectile, the angle must be :
(a) 30°
(b) 45°
(c) 60°
(d) 90°
Answer:
(b) 45°
Question 7.
Time of flight of a projectile is tx and time taken to reach maximum height is t2, then the relation between them will be :
(a) t1 =2t2
(b) t2 =2t1
(c) t2 =3t1
(d) t 1=t2
Answer:
(a) t1 =2t2
Question 8.
If the velocity of projectile is doubled, then its range will be :
(a) Same
(b) Become double
(c) Become half
(d) Become four times.
Answer:
(b) Become double
Question 9.
At maximum height of projectile, velocity is :
(a) Zero
(b) Minimum
(c) Equal to initial velocity
(d) None of these.
Answer:
(b) Minimum
Question 10.
Rate of change of angular velocity is called :
(a) Angular displacement
(b) Angular speed
(c) Angular acceleration
(d) Angular momentum.
Answer:
(c) Angular acceleration
2. Fill in the blanks:
1. Angular momentum is a ………………….quantity.
Answer:
Vector
2. Magnitude of a vector 
is …………………….
Answer:
√5
3. If an object is thrown horizontally from a height, then its path is ………………..
Answer:
Parabolic
4. At maximum height of a projectile motion, velocity of an object is ………………..
Answer:
Minimum
5. The maximum horizontal distance covered by a projectile in its time of flight is called ………………………
Answer:
Horizontal range
6. ……………………….. is constant in uniform circular motion.
Answer:
Speed
7. At maximum height the direction of acceleration in projectile motion is ………………….
Answer:
Vertically downwards
8. In uniform circular motion there is ……………………. changes in angular momentum of a particle.
Answer:
Zero
9. Angle between velocity and acceleration in uniform circular motion is …………………..
Answer:
90°
10. SI unit of angular momentum is …………………
Answer:
Radian/second
3. Match the following:
I.
II.
| Column ‘A’ | Column ‘B’ |
| 1. Velocity of a particle performing uniform circular motion is | (a) Tangential |
| 2. Direction of acceleration of a particle performing uniform circular motion is | (b) ν = rω |
| 3. Relation between linear velocity (ν) and angular velocity (ω) is | (c) Changes |
| 4. Direction of velocity of a particle executing uniform circular motion is | (d) Constant |
| 5. Kinetic energy of a body executing uniform circular motion is | (e) Toward centre. |
Answer:
1. (c) Changes
2. (e) Toward centre
3. (b) ν = rω
4. (a) Tangential
5. (d) Constant
4. Write true or false:
2. If a unit vector is added or subtracted from a given vector, we always obtain given vector.
Answer:
True
3. A scalar quantity can be added with vector quantity.
Answer:
False
4. Resultant of three coplaner vector can be zero.
Answer:
True
5. Path of motion is a straight line in two-dimensional motion moving with uniform velocity.
Answer:
True
6. Acceleration is constant in projectile motion.
Answer:
True
7. Horizontal velocity is constant in projectile motion.
Answer:
True
8. If an object is dropped from running train, then its path will be parabolic.
Answer:
True
9. Kinetic energy is zero at maximum height of a projectile motion.
Answer:
False
10. In a given time interval, the ratio of change in velocity to the time-interval gives average acceleration.
Answer:
True
5. Answer in one word:
1. A projectile is thrown upwards. At the topmost point, the acceleration is in which direction.
Answer:
Vertically downwards
2. When an object is projected from earth surface, then which quantity remains constant?
Answer:
Horizontal component of velocity
3. Twp bullets are fired horizontally with different velocities from the same height. Which bullet would reach the earth’s surface earlier.
Answer:
Both bullets reach the earth’s surface in the same time
4. A particle is moving in a circular path. What is angle between its velocity and acceleration?
Answer:
90°
5. A particle has uniform circular motion. What is the change in its angular velocity after one half cycle.
Answer:
No change in angular velocity
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