When the spring oscillates at maximum displacement then additional potential energy stored =12kl2=12mgl. Thus total potential energy =
12mgl+12mgl=mgl
. Correct choice is (d).
When a mass M is attached to the spring of force constant k then the spring stretches by L if the mass oscillates with amplitude l What will be?
When the spring oscillates at maximum displacement then additional potential energy stored =12kl2=12mgl. Thus total potential energy =
12mgl+12mgl=mgl
. Correct choice is (d).
When a mass M is attached to a spring?
A mass M attached to a spring oscillates with
a period of 2 seconds
. If the mass is increased by 2 kg, the period increases by 1 second. Find the initial mass, assuming that Hooke’s law is obeyed.
When a mass M is attached to a vertical spring and slowly released?
An object of a mass M is attached to a vertical spring which slowly
lowers to equilibrium position
. This extends the spring x. If the same objects is attached to the same vertical spring but permitted to fall suddenly instead, then the maximum extension of spring is. $ {text{A}}{text{.
How do you find the force constant k for a spring?
The formula to calculate the spring constant is as follows:
k= -F/x
, where k is the spring constant. F is the force and x is the change in spring’s length. The negative sign indicates that work is done against the restoring force.
When a mass M is attached to a spring it normally extends by 0.2 m?
The mass m is given a slight addition extension and released, then its time period will be O sec
01 sec 0 241 sec o
sec.
Are loaded vertical spring executes SHM with time period of 4 seconds?
Correct option a
2 sec
Explanation:Time period = 4 sec. In one simple harmonic oscillation the same kinetic and potential energies are repeated two times. So the difference will be 2 seconds.
When a mass M is hung from the lower end of a spring of negligible mass?
When a mass m is hung from the lower end of a spring of neglibgible mass,
an extension x is produced in the
spring.
Which of the following is true for a system consisting of a mass oscillating on the end of a spring?
Which of the following is true for a system consisting of a mass oscillating on the end of an ideal spring?
The maximum kinetic energy and maximum potential energy are equal, but occur at different times
.
When a mass M is attached to a vertical spring?
An object of an mass M is attached to a vertical spring which
slowly lowers to equilibrium position
. This extends the spring x. If the same objects is attached to the same vertical spring but permitted to fall suddenly instead , then the maximum extension of spring is.
Where is the mass located when its kinetic energy is a maximum?
The total energy remains constant, but the energy oscillates between kinetic energy and potential energy. When the kinetic energy is maximum, the potential energy is zero. This occurs when the velocity is maximum and the mass is
at the equilibrium position
. The potential energy is maximum when the speed is zero.
What is the formula for the force of a spring?
The spring force formula is expressed through the equation:
F = – kx.
Does the spring constant depend on how far the spring is stretched?
More generally, the spring constant of a
spring is inversely proportional to the length of the spring
, assuming we are talking about a spring of a particular material and thickness. … The larger the spring constant, the smaller the extension that a given force creates.
How do you find the maximum compression of a spring?
$Rightarrow F = kx $ , here $ F $ is the force applied by a spring having the spring constant $ k $ due to an extension $ x $ in the spring. Thus the maximum compression of the spring comes out to be equal to
$ dfrac{{ma}}{k} $
. Hence, the correct answer is option C.
When a mass M is attached to?
A mass M is attached to a
horizontal spring of force constant k fixed one side to a rigid support
as shown in figure. The mass oscillates on a frictionless surface with time period T and amplitude A. When the mass M is in equilibrium position, another mass m is gently placed on it.
Are loaded vertical spring executes SHM?
A loaded vertical spring executes
simple harmonic oscillations
with period of 4 s.
