In this post and in few of my posts to come, I would like to solve problems on linear motion,freely falling bodies,vertically projected up bodies and projectiles .

1.An object accelerates from rest to a velocity 20m/sec in 4seconds.If the object has uniform acceleration, find its acceleration and displacement in this time.

Soln: From the data given in the problem we have,

Initial velocity = u =0,

final velocity v=20 m/sec,

Time of journey t=4sec,

Acceleration a = = = 5

Displacement S = ut + = 0 (4)+

S = 40m.

2.An object starting from rest moves with uniform acceleration of 3 for 6sec.Find its velocity and displacement after 6seconds.

Soln: From the data given in the problem we have,

Initial velocity of the object u = 0,

Acceleration of the object a= 3,

Time of journey t =6sec.

Final velocity of the object v=u+at =0 + 3(6) = 18 m/sec.

Displacement S= ut + = 0 (6)+

S= 54m.

3.An object starting from rest moves with uniform acceleration of 4.Find its displacement i) 5seconds ii) in 5th second iii) 8th second.

Soln : From data given in the problem

Initial velocity of the object u=0,

Acceleration of the object a=4,

i) time t=5 seconds,

Displacement of the object S=ut + = 0 (5)+

Displacement of the object in 5seconds S= 50m.

ii) Displacement of the body in 5th second =?

Let us substitute n=5 in the formula =u+a(n-1/2)

=0+4(5-1/2) = 4(4.5) =18m.

iii)Displacement of the body in 8th second =?

Let us substitute n=8 in the formula =u+a(n-1/2)

=0+4(8-1/2) = 4(7.5) =30m.

4.An object started moving with an initial velocity of 10m/sec, after traveling a distance of 5m gets a velocity 20m/sec.Find its i) acceleration ii) time taken for 5m displacement.

soln: From the data given in the problem,

Initial velocity of the object u=10m/sec,

Final velocity of the object v= 20m/sec,

Displacement S=5m,

i) acceleration a=?

Substitute the values of u,v and S in the equation =2as,

we get =2a(5)

300 = 10a or a = 300/10=30.

ii)Time t=?

Substitute the values of u,v and a in the equation v=u+at,

we get 20=10+(30)t ; 10=30t

t =10/30 = 1/3 = 0.333 sec.

5.When an observer started observing a car it’s velocity was x m/sec , if it travels for 10sec with uniform acceleration 2.5 and its velocity increases to 75m/sec.Find i) Initial velocity of the car ii) Displacement of the car in 10sec iii) Displacement of the car in first 5sec and last 5sec, what is your inference.

Soln: From the data given in the problem,

Initial velocity of the car u = x (say),

Final velocity = 75m/sec,

Acceleration a = 2.5,

Time of journey t=10sec.

i) Substitute the values of u,v,a and t in the equation v=u+at

we get 75 = x+2.5(10) ; x=50 m/sec.

ii) Let the displacement of the car in 10sec be S

Substitute the values of u,a and t in the equation S=ut +

We get S = 50(10)+ ;

S = 500+125 ; s=625 m

ii) Let the displacement in first 5sec be

Substitute t=5 sec and thve values of u and a in the equation =ut +

we get =50(5) +

= 250 + 31.25 = 281.25 m.

Let the displacement in next 5sec be

= S –

= 675 – 281.25 = 393.75 m

We can observe that, even though the time of journey is same , >

Displacement of the body in second half is greater than in the first half time of its journey.

6 .A cheetah can accelerate from rest to 24.0 m/s in 6.70 s.

Assuming constant acceleration, how far has the cheetah run in this time?(Question by suzi in yahoo answers).

Soln: From the data given in the problem,

Initial velocity of the cheetah u=0,

Final velocity of cheetah v=24 m/sec,

Time t = 6.7sec

Distance traveled by cheetah be S=?

The equations of motion are = 2aS- – – – – (1)

and a = – – – – – (2)

From equations (1) and (2) we get =2S

simplifying it we get S = =

Substitute the values of u,v and t we get S = =12(6.7)=80.4 m

7) A car covers first halt of the distance between two places at a speed of 30 km/hr and the second half at a 90km/hr.What will be the average speed of the car?

Soln: Method I: Let the total distance between the places be S.

Time taken to cover First half = = hours.

Time taken to cover Second half = = hours.

Total time t = + =+= = .

Average speed = Total distance /total time.

= S/t =

= 45km/hr.

Method II (Short cut): If the body covers 1st half of distance with a speed x and the second half with a speed y,then the average speed = .

Average speed = latex \frac{2700}{60}$ = 45km/hr.

8) A body starts from rest and acqires a velocity of 400m/sec in 10seconds.Calculate the acceleration and distance traveled.

Soln: From the data given in the problem

Initial velocity of the body u=0,

Time of journey t=10sec,

Final velocity v=400m/sec,

Acceleration a=? and distance traveled in 10sec s=?

Substitute the values of u,v and t in the equation v=u+at,

we get 400= (0)(10) + a (10) ; 10a=400

a= 40

Substitute the values of u,a and t in the equation S= ut +

S=(0)(10)+ = 0+2000 = 2000m.

9) A body moving with uniform acceleration covers 6m in second and 16m in second.Calculate the initial velocity,acceleration and distance moved in second .

Soln: From the data given in the problem

Distance moved in second = 6m,

Distance moved in second = 16m,

– = a(4-2) =2a

therefore 2a = – =16-6 =10

a = 5 m/

Substitute the values of ,a and n=2 in the equation =u+a(n -1/2)

we get 6=u+5(2-1/2) ; 6=u+7.5

u=-7.5 +6 = -1.5 m/sec.

**Distance moved in the second = u+a(6-1/2),**

Substitute the values of u,a in the above equation we get second=-1.5+5(5.5)

second =-1.5+27.5 =26m.

10) An object started traveling with a velocity 2m/sec moves with an uniform acceleration of 3 m/.

i) Find the ratio of displacements in a) ,, seconds b) ,, and seconds .

ii)Find the ratio of velocities a) ,, seconds b) ,, seconds .

Soln: From the data given in the problem

Initial velocity u=2 m/sec,

Acceleration a =3 m/,

i- a) The ratio of displacements in ,, seconds

From the formula :: = (2u+a) : (2u+5a) : (2u+9a)

:: = (4+3) : (4+15) : (4+27)

:: = 7:19:31 .

i-b) The ratio of displacements in ,, seconds

From the formula :: = (2u+3a) : (2u+7a) : (2u+11a)

:: = (4+9) : (4+21) : (4+33)

:: = 13 : 25 : 37 .

ii -a) From the formula ::: . . . . . . . . := (u+a) : (u+2a) : (u+3a) : . . . . . . . . . : (u+na).

The ratio of velocities a) ,, seconds

:: = (u+a) : (u+3a) : (u+5a) = 5 :11 : 17 .

ii- b) The ratio of velocities a) ,, seconds

:: = (u+2a) : (u+4a) : (u+6a) =8 :1 4 :20 .

11) A body travels 200cm in the first two seconds and 220cm in the next four seconds.What will be the velocity at the end of the seventh second from the start?

Soln: The displacement of the body in first 2 sec =200cm,

Let the initial velocity = u(say) ,

Acceleration = a(say), time =2sec

= +,

Substitute the value of in above equation, we get

= 2u+,

= 2u +2a ; 2(u+a) =200

Therefore u+a = 100 – – – – – – – – – – – – – – – – – – – (1)

Given that the body travels 220cm in next 4sec.That is from the start it displaces 200+220 = 420 cm in 6sec.

Displacement =420 cm,

time =6 sec,

substitute theses values in the equation = u+,

= 6u+=6u+18a,

6(u+3a) = 420 ; u+3a = 70 – – – – – – – – – – – – – – – – – – – (2)

Solving equations (1) and (2) or Eq (2) – Eq(1)

we get 2a= -30 ; a=-15 cm/,

Substitute value of a in Eq(1) we get u-15 = 100,

u = 115 cm/sec.

The velocity at the end of second v=u+a

we get v= 115+(-15)(6) =115-90 =25cm/sec.

Therefore final velocity v=25cm/sec.

12.A subway train starts from rest at a station and accelerates at a rate of 16.5 for 13.1 sec.It runs at constant speed for 69.7s and slows down at a rate of 3.45 until it stops at the next station.What is the total distance covered?

Soln: From the data given in the problem,

Initial velocity of the train u = 0 m/sec,

Acceleration a = 16.5 ,

time t = 13.1 sec,

Velocity after 13.1 sec v=?

and the distance traveled =?

Substitute the values in the equation v =u+at

we get v= 0+(16.5)(13.1) = 216.15 m/sec.

Substitute in equation = ut +

we get = (0)(13.1)+

= 0+1415.78 =1415.78 m

After that the train travels with velocity v=216.15 m/sec for 69.7sec. calculate distance traveled during this time.

v=216.15 m/sec, t = 69.7 sec =?

substitute the values in equation = vt = (216.15)(69.7)=15065.66 m

Finally the trains decelerates at the rate of 3.45 and comes to rest.find distance traveled before coming to rest.

Acceleration a = -3.45 ,

Initial velocity u = 216.15m/sec,

Final velocity v=0,

distance traveled =?

substitute the values in = 2as,

we get = 2(-3.45)

-6.90 = -46720.82

= 6771.13.

Total distance traveled by train S = ++ = 1415.78+15065.66+6771.13=23252.57 m or 23.252 km.

It’s fine but we want logical questions anyway thanku U.

Bye

nice problems happy to solve these

Dats kul i kuld solve all,but nxt time try to bring tough ones

thanks for these examples. They were of great aid to me.

i think that u solved problem # 9 wrong …….

Thanks for these examples…

thank you for giving solution to some problem in physics.

thats kul a rily enjoy revising the problems

thank u for the solutions

thanks a lot 4 ua solutions

what is the easy way of solving moments of force

Thank you so much for the questions i just have a minor question regarding number five it seems the math doesnt quite match up when calculating displacement “S = 500+125 ; s=675 m” Please correct this is possible ! Thanks for the questions though I really appreciated them

Nice questions and solutions. Can you include some questions related to graphs of motion.

Good questions! lets upload some tough ones also

More of it, 4 imroving students standard

thanks alot.but replace 675 in number 5 with 625

nice chalenging questions include solution using intergration and differentiation

Found some answers to my question but the page is nice

the questions were very simple but you gave me some answers to what I do not know but now I understand

Wow..thw questions and solutions are just great.

I Luv That Nice Questions And Answers Keep Posting More Questions.It Can Also Help Science Students.

I like this answer.

A body starts from the rest covers a distance of 2 metre in first 1second and further it covers a distance of 5m in 2s. Find the acceleration