Kinematics is the branch of physics that deals with: A) Forces causing motion B) Motion without considering causes C) Heat energy D) Electricity Answer: B) Motion without considering causes
The SI unit of distance is: A) Kilometer B) Meter C) Centimeter D) Mile Answer: B) Meter
Which quantity is a scalar? A) Velocity B) Acceleration C) Displacement D) Distance Answer: D) Distance
Which quantity is a vector? A) Speed B) Time C) Velocity D) Mass Answer: C) Velocity
The rate of change of displacement is called: A) Speed B) Velocity C) Acceleration D) Momentum Answer: B) Velocity
The rate of change of velocity is known as: A) Speed B) Acceleration C) Displacement D) Distance Answer: B) Acceleration
The SI unit of velocity is: A) m/s B) km/h C) cm/s D) m²/s Answer: A) m/s
A body moving with constant speed in a straight line has: A) Variable velocity B) Constant velocity C) Zero speed D) Infinite acceleration Answer: B) Constant velocity
The shortest distance between initial and final positions is called: A) Distance B) Speed C) Displacement D) Time Answer: C) Displacement
Speed is equal to: A) Distance × Time B) Distance / Time C) Time / Distance D) Velocity × Time Answer: B) Distance / Time
A car covers 120 m in 10 s. Its speed is: A) 10 m/s B) 12 m/s C) 14 m/s D) 16 m/s Answer: B) 12 m/s
Which quantity has magnitude only? A) Velocity B) Acceleration C) Force D) Speed Answer: D) Speed
Uniform motion means: A) Variable speed B) Equal distances in equal intervals of time C) Unequal distances in equal intervals D) Zero speed Answer: B) Equal distances in equal intervals of time
The graph between distance and time for uniform motion is: A) Circle B) Straight line C) Curve D) Parabola Answer: B) Straight line
Which instrument measures speed of vehicles? A) Ammeter B) Speedometer C) Barometer D) Voltmeter Answer: B) Speedometer
The SI unit of acceleration is: A) m/s B) m²/s C) m/s² D) km/s² Answer: C) m/s²
A body starts from rest. Its initial velocity is: A) 10 m/s B) 1 m/s C) Zero D) Infinite Answer: C) Zero
If velocity remains constant, acceleration is: A) Positive B) Negative C) Infinite D) Zero Answer: D) Zero
Which quantity can never be negative? A) Velocity B) Acceleration C) Speed D) Displacement Answer: C) Speed
Average speed is given by: A) Total distance/Total time B) Distance × Time C) Velocity/Time D) Time/Distance Answer: A) Total distance/Total time
A cyclist covers 180 m in 20 s. His speed is: A) 7 m/s B) 8 m/s C) 9 m/s D) 10 m/s Answer: C) 9 m/s
Motion along a straight line is called: A) Circular motion B) Rotatory motion C) Linear motion D) Vibratory motion Answer: C) Linear motion
A body moving in a circle with constant speed has: A) Zero acceleration B) Constant acceleration C) Changing velocity D) Constant displacement Answer: C) Changing velocity
One kilometer is equal to: A) 100 m B) 1000 m C) 10,000 m D) 100,000 m Answer: B) 1000 m
The area under velocity-time graph represents: A) Speed B) Distance travelled C) Acceleration D) Force Answer: B) Distance travelled
The slope of velocity-time graph gives: A) Distance B) Speed C) Acceleration D) Time Answer: C) Acceleration
A body moving with uniform acceleration obeys: A) v = u + at B) F = ma C) P = mv D) W = Fs Answer: A) v = u + at
A car accelerates from 10 m/s to 30 m/s in 5 s. Its acceleration is: A) 2 m/s² B) 3 m/s² C) 4 m/s² D) 5 m/s² Answer: C) 4 m/s²
Retardation means: A) Positive acceleration B) Zero acceleration C) Negative acceleration D) Uniform motion Answer: C) Negative acceleration
The velocity-time graph of a body at rest is: A) Vertical line B) Horizontal line on time axis C) Curve D) Parabola Answer: B) Horizontal line on time axis
If u = 5 m/s, a = 2 m/s² and t = 4 s, then final velocity is: A) 10 m/s B) 11 m/s C) 12 m/s D) 13 m/s Answer: D) 13 m/s
A body moving with constant velocity has: A) Constant acceleration B) Zero acceleration C) Infinite acceleration D) Negative acceleration Answer: B) Zero acceleration
Which of the following is a vector quantity? A) Time B) Distance C) Velocity D) Speed Answer: C) Velocity
A body covers equal distances in unequal intervals of time. Its motion is: A) Uniform B) Non-uniform C) Circular D) Vibratory Answer: B) Non-uniform
If distance travelled is zero, displacement is: A) Positive B) Negative C) Zero D) Infinite Answer: C) Zero
A body moving in opposite direction has: A) Positive velocity B) Negative velocity C) Zero velocity D) Infinite velocity Answer: B) Negative velocity
Which graph gives acceleration from its slope? A) Distance-time graph B) Speed-time graph C) Velocity-time graph D) Acceleration-time graph Answer: C) Velocity-time graph
The unit km/h is used for measuring: A) Distance B) Velocity C) Acceleration D) Force Answer: B) Velocity
A body at rest possesses: A) Velocity only B) Speed only C) Zero speed and zero velocity D) Infinite velocity Answer: C) Zero speed and zero velocity
72 km/h is equal to: A) 10 m/s B) 15 m/s C) 20 m/s D) 25 m/s Answer: C) 20 m/s
A train travels 360 km in 6 h. Its average speed is: A) 50 km/h B) 60 km/h C) 70 km/h D) 80 km/h Answer: B) 60 km/h
The speed of a stationary object is: A) 1 m/s B) Infinite C) Zero D) Negative Answer: C) Zero
The motion of Earth around the Sun is: A) Linear B) Circular C) Rotatory D) Random Answer: B) Circular
Velocity is speed with: A) Magnitude only B) Direction only C) Magnitude and direction D) Time Answer: C) Magnitude and direction
A car moving at 20 m/s stops in 5 s. Retardation is: A) 2 m/s² B) 3 m/s² C) 4 m/s² D) 5 m/s² Answer: C) 4 m/s²
The motion of pendulum is: A) Vibratory motion B) Circular motion C) Linear motion D) Random motion Answer: A) Vibratory motion
Which quantity depends on direction? A) Distance B) Speed C) Time D) Displacement Answer: D) Displacement
The SI unit of time is: A) Minute B) Hour C) Second D) Day Answer: C) Second
If a body covers 100 m in 20 s, its speed is: A) 2 m/s B) 4 m/s C) 5 m/s D) 6 m/s Answer: C) 5 m/s
The equation � is used to calculate: A) Speed B) Distance C) Acceleration D) Time Answer: C) Acceleration
Which equation is used to find displacement under uniform acceleration? A) � B) � C) � D) � Answer: B) �
A body starts from rest and accelerates at 3 m/s² for 4 s. Its final velocity is: A) 7 m/s B) 10 m/s C) 12 m/s D) 15 m/s Answer: C) 12 m/s
If u = 0, a = 2 m/s² and t = 5 s, the displacement is: A) 20 m B) 25 m C) 30 m D) 35 m Answer: B) 25 m
Which of the following is not a unit of speed? A) m/s B) km/h C) cm/s D) m/s² Answer: D) m/s²
The slope of a distance-time graph represents: A) Velocity B) Acceleration C) Momentum D) Force Answer: A) Velocity
The acceleration due to gravity is approximately: A) 8.9 m/s² B) 9.8 m/s² C) 10.8 m/s² D) 12 m/s² Answer: B) 9.8 m/s²
A car moves with a speed of 54 km/h. In m/s it is: A) 10 m/s B) 12 m/s C) 15 m/s D) 18 m/s Answer: C) 15 m/s
Which equation relates velocity, acceleration and displacement? A) � B) � C) � D) � Answer: B) �
If a body covers equal distances in equal intervals of time, it is said to have: A) Variable motion B) Uniform motion C) Circular motion D) Oscillatory motion Answer: B) Uniform motion
A bus moves with a speed of 25 m/s for 8 s. Distance covered is: A) 100 m B) 150 m C) 200 m D) 250 m Answer: C) 200 m
Velocity can change due to change in: A) Magnitude only B) Direction only C) Both magnitude and direction D) Neither Answer: C) Both magnitude and direction
A body falling freely has: A) Zero acceleration B) Constant acceleration C) Variable acceleration D) Infinite acceleration Answer: B) Constant acceleration
A train moving at 20 m/s accelerates to 40 m/s in 10 s. Its acceleration is: A) 1 m/s² B) 2 m/s² C) 3 m/s² D) 4 m/s² Answer: B) 2 m/s²
Which quantity remains constant in uniform circular motion? A) Velocity B) Acceleration C) Speed D) Displacement Answer: C) Speed
The area under an acceleration-time graph gives: A) Velocity change B) Distance C) Force D) Momentum Answer: A) Velocity change
One hour contains: A) 60 s B) 600 s C) 1800 s D) 3600 s Answer: D) 3600 s
If v = 25 m/s, u = 5 m/s and t = 4 s, acceleration is: A) 2 m/s² B) 4 m/s² C) 5 m/s² D) 6 m/s² Answer: C) 5 m/s²
A body moving with negative acceleration is said to be: A) Speeding up B) At rest C) Retarding D) Uniformly moving Answer: C) Retarding
The motion of a fan after switching on is: A) Rotatory motion B) Linear motion C) Vibratory motion D) Random motion Answer: A) Rotatory motion
Which equation gives average velocity? A) Distance × Time B) Displacement / Time C) Velocity × Time D) Time / Distance Answer: B) Displacement / Time
A body moving with constant acceleration covers: A) Equal distances in equal intervals B) Unequal distances in equal intervals C) Equal distances in unequal intervals D) Zero distance Answer: B) Unequal distances in equal intervals
A person walks 100 m east and then 100 m west. The displacement is: A) 100 m B) 200 m C) 50 m D) 0 m Answer: D) 0 m
If u = 10 m/s, a = 2 m/s² and t = 3 s, then v = A) 14 m/s B) 15 m/s C) 16 m/s D) 18 m/s Answer: C) 16 m/s
Which quantity has both magnitude and direction? A) Speed B) Time C) Distance D) Velocity Answer: D) Velocity
The SI unit of displacement is: A) Meter B) Second C) Newton D) Joule Answer: A) Meter
The graph of acceleration versus time for uniform acceleration is: A) Vertical line B) Straight horizontal line C) Curve D) Circle Answer: B) Straight horizontal line
A body covers 300 m in 15 s. Its speed is: A) 15 m/s B) 20 m/s C) 25 m/s D) 30 m/s Answer: B) 20 m/s
If acceleration is zero, velocity will be: A) Variable B) Constant C) Infinite D) Negative Answer: B) Constant
The motion of a swinging pendulum is: A) Linear B) Circular C) Vibratory D) Random Answer: C) Vibratory
A car moving at 30 m/s comes to rest in 6 s. Retardation is: A) 3 m/s² B) 4 m/s² C) 5 m/s² D) 6 m/s² Answer: C) 5 m/s²
Which quantity cannot be zero while an object is moving? A) Speed B) Velocity C) Acceleration D) Displacement Answer: A) Speed
The velocity-time graph for uniform acceleration is: A) Curve B) Straight line C) Circle D) Hyperbola Answer: B) Straight line
A car moves with 15 m/s for 12 s. Distance covered is: A) 150 m B) 170 m C) 180 m D) 200 m Answer: C) 180 m
The distance covered by a body is always: A) Positive B) Negative C) Zero D) Infinite Answer: A) Positive
A body moving in a straight line with constant speed has: A) Uniform motion B) Circular motion C) Variable motion D) Random motion Answer: A) Uniform motion
The acceleration of a body at rest is: A) Infinite B) Always zero C) May be zero D) Negative Answer: C) May be zero
Which equation is called the first equation of motion? A) � B) � C) � D) � Answer: B) �
Which equation is called the third equation of motion? A) � B) � C) � D) � Answer: C) �
A freely falling body gains velocity because of: A) Friction B) Gravity C) Pressure D) Magnetism Answer: B) Gravity
A body starts from rest and accelerates at 4 m/s² for 5 s. Final velocity is: A) 15 m/s B) 18 m/s C) 20 m/s D) 25 m/s Answer: C) 20 m/s
If initial and final positions are the same, displacement is: A) Maximum B) Positive C) Negative D) Zero Answer: D) Zero
The unit of acceleration can also be written as: A) ms⁻² B) m²s⁻¹ C) ms² D) m⁻¹s Answer: A) ms⁻²
A car travels 90 km in 3 hours. Its average speed is: A) 20 km/h B) 25 km/h C) 30 km/h D) 35 km/h Answer: C) 30 km/h
Which of the following is a scalar quantity? A) Acceleration B) Displacement C) Velocity D) Speed Answer: D) Speed
A body with constant velocity has: A) Uniform motion B) Accelerated motion C) Circular motion D) Random motion Answer: A) Uniform motion
A body moving with increasing velocity has: A) Negative acceleration B) Positive acceleration C) Zero acceleration D) Infinite acceleration Answer: B) Positive acceleration
Which graph is used to determine displacement from area under the curve? A) Distance-time graph B) Velocity-time graph C) Acceleration-time graph D) Speed-time graph only Answer: B) Velocity-time graph
The motion of planets around the Sun is an example of: A) Vibratory motion B) Circular motion C) Linear motion D) Random motion Answer: B) Circular motion
If a body moves with uniform speed in a circle, its acceleration is directed toward the: A) Tangent B) Outside C) Centre D) Upward Answer: C) Centre
Kinematics deals with the study of: A) Motion without considering forces B) Heat and temperature C) Sound and waves D) Electricity and magnetism Answer: A) Motion without considering forces