3 7
2 5
2 2t
7
8T
tFor n 7
3
7
2t t
11 11
2
2 8T
t t
So the two particles meet at
3 7 11
, ,
8 8 8T T T
etcFinding the times at 2nd, 3rd meeting is very
difficult with the first two methods.
Two pendulums whose lengths are 100cm and
121cm are suspended side by side.Their bobs are
pulled together and then released. After how many
minimum oscillations of the longer pendulum, will
the two be in phase again.Let T 1 andT 2 are the time periods of twoPendulums 1100
T 2
g and 2121
T 2
g (T T 2 1 becausel l 2 1 ).
Let at t 0 they start swinging together. Since
their time periods are different, the swinging will
not be in unison always. Only when number of
completed oscillation differ by an integer, the two
pendulums will again begin to swing together.
Let longer length pendulum complete N
oscillations and shorter length pendulum complete
(N+1) oscillations, for the unison swinging, then
( 1)N T NT 1 2100 121
( 1) 2N N 2 N 10
g g Let 0 is the angular amplitude of the two
pendulums. 1 and 2 are angular frequencies of
the two pendulums1 100 & (^2121)
g g
(T T 1 2 & 1 2 )
The angular displacements of the two pendulums
as a function of time are.
1 0 cos 1 t& 2 0 cos( ) 2 t
Since both start from extreme position.
When the two pendulums meet again then
1 2 cos 1 t tcos 2
1 t n t (^22)
For n 1
1 2
2
t
Let N be the number of oscillations of longer
pendulum so that t NT 2
2
1 2 2 1 2
2 2
N N
2
1 2
/
/ /
g l
N
g l g l
1
2 1
l
l l
100
121 100
10
10,
21
N
The corresponding time for N 10 is
1 2
2
t 22.45s
The corresponding time for
10
21
N is
1 2
2
t 1.
It is interesting to note that the two pendulums
meet each other several times in the time interval of
22.45 s
For N=1, 2, 3 - - -
Note:
3.
Sol:
Method-1:
Method-2^121212
2 4 6
t , ,
etc
The corresponding times are
t s s s1.046 , 2.084 , 3.127 etc
At these times the two pendulums will have
different phases.