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Rajarshi Das
Subject: Physics
, asked on 4/4/18
derive the time period of spring block system
Answer
1
Shreya Choudhary
Subject: Physics
, asked on 30/3/18
Solve this :
33
.
Displacement
-
time
equation
of
particle
executing
SHM
is
x
=
Asin
(
ωt
+
ϕ
)
.
At
t
=
0
,
position
of
the
particle
is
x
=
A
2
and
it
is
moving
along
negative
x
-
direction
.
Then
the
angle
ϕ
can
be
(
1
)
π
6
(
2
)
5
π
6
(
3
)
2
π
3
(
4
)
π
3
34
.
For
a
particle
executing
SHM
,
what
is
the
ratio
of
average
acceleration
(
from
extreme
position
to
equilibrium
position
)
to
maximum
acceleration
?
(
1
)
4
π
(
2
)
2
π
(
3
)
1
π
(
4
)
1
2
π
Answer
1
Priyansh
Subject: Physics
, asked on 28/3/18
A small block is placed on a wooden plank which is undergoing SHM is vertical direction with a period of T. Find the maximum amplitude of motion so that block does not leave the plank.
(A)
g
T
2
π
2
(B)
g
T
2
4
π
2
(C)
4
g
T
2
π
2
(D) None of these
Answer
2
Varun Gupta
Subject: Physics
, asked on 28/3/18
25. A particle is performing simple harmonic motion along x-axis with amplitude 4 cm and time period 1.2 s. The minimum time taken by the particle to move from x = 2 cm to x = +4 cm and back again is given by
a. 0.6 s
b. 0.4 s
c. 0.3 s
d. 0.2 s
Answer
1
Varun Gupta
Subject: Physics
, asked on 28/3/18
Please solve Q24, and explain how the solution graph was plotted as such?
24. A particle of mass m oscillates with simple harmonic motion between points x
1
and x
2
the equilibrium position being O. Its potential energy when plotted, is represented by which of the following graph ?
Answer
1
Varun Gupta
Subject: Physics
, asked on 28/3/18
Q15
Q15. A forced oscillator is acted upon by a force F = F
0
sin
ωt
. The amplitude oscillator is given by
59
4
ω
2
-
80
ω
+
15
.
What is the resonant angular frequency?
(a) 5 units (b) 15 units
(c) 10 units (d) 20 units
Answer
1
Varun Gupta
Subject: Physics
, asked on 25/3/18
Q. (a) Derive the relations for the kinetic energy, potential energy, and total
energy of a body executing SHM, In
what positions, the energy is wholly kinetic or wholly potential?
(b) Discuss their Variation graphically.
Answer
1
Varun Gupta
Subject: Physics
, asked on 25/3/18
Solve this:
Answer
1
Varun Gupta
Subject: Physics
, asked on 25/3/18
Q.3. The amplitude of a lightly damped oscillator decreases by 3.0% during each cycle. What percentage of the mechanical energy of the oscillator is lost in each cycle?
Answer
2
Mitali
Subject: Physics
, asked on 25/3/18
Does the superposition of two SHMs directed perpendicular having phase diference 90 result in a simple harmonic motion..the equation.which we get for the ellipse..??!
Answer
1
Mitali
Subject: Physics
, asked on 25/3/18
A particle executes SHM with angular frequency 6.28 s-1 and amplitude 10 cm .what will be the speed at t=1/6 s assuming that the motion starts from rest at t = 0 . The solution is given as in the picture .The displacement equation has cos instead of sin and so does the equation of velocity has sin instead of cos ... why..?!! Does it change like this if yes then what should be kept in mind while solving such numericals..??! Kindly explain properly it's really important
Answer
1
Maitri C Trivedi
Subject: Physics
, asked on 21/3/18
the displacement equation of a particle is x=3sin2t+4cos2t. the amplitude and maximum velocity will be
Answer
1
Monish Preetam
Subject: Physics
, asked on 18/3/18
Describe a SHM. If displacement of an SHM is given by x = A cos (ωt + Φ), then find its velocity and acceleration. Draw graphs to show the variation in displacement, velocity and acceleration with time for a single simple harmonic oscillation.
Answer
1
Erw Trjerth
Subject: Physics
, asked on 18/3/18
Experts please answer the questions completely. And no links please.
Answer
1
Shreya Choudhary
Subject: Physics
, asked on 15/3/18
Solve this:
30. I the surfaces shown in figure (12-E15) are frictionless. The mass of the car is M, that of the block is m and the spring has spring constant k. Initially, the car and the block are at rest and the spring is stretched through a length x
o
when the system is released. (a) Find the amplitudes of the simple harmonic motion of the block and of the car as seen from the road. (b) Find the time period(s) of the two simple harmonic motions.
Answer
1
1
2
3
4
5
Next
What are you looking for?
(A) (B) (C) (D) None of these
a. 0.6 s
b. 0.4 s
c. 0.3 s
d. 0.2 s
24. A particle of mass m oscillates with simple harmonic motion between points x1 and x2 the equilibrium position being O. Its potential energy when plotted, is represented by which of the following graph ?
Q15. A forced oscillator is acted upon by a force F = F0 sin . The amplitude oscillator is given by .
What is the resonant angular frequency?
(a) 5 units (b) 15 units
(c) 10 units (d) 20 units
energy of a body executing SHM, In
what positions, the energy is wholly kinetic or wholly potential?
(b) Discuss their Variation graphically.
30. I the surfaces shown in figure (12-E15) are frictionless. The mass of the car is M, that of the block is m and the spring has spring constant k. Initially, the car and the block are at rest and the spring is stretched through a length xo when the system is released. (a) Find the amplitudes of the simple harmonic motion of the block and of the car as seen from the road. (b) Find the time period(s) of the two simple harmonic motions.