A car of mass mc=2 kg is attached to a spring in one end, and to a mass of m0=0.76 kg in the other, as seen in the figur
Posted: Mon May 16, 2022 3:14 pm
A car of mass mc=2 kg is
attached to a spring in one end, and to a mass
of m0=0.76 kg in
the other, as seen in the figure. When the car is released from the
initial position x0, it makes a
simple harmonic motion. The solution for the equation of motion of
this car is given as x(t)=m0g/k-A
cos(ωt), where g is the
gravitational acceleration, k is the
spring constant, A is the system
parameter, and ω is the frequency of
oscillation.
Calculate the maximum distance travelled by the car in unit of
meter, if the spring constant is k=19.1
kg/s2 and the car is released
from x0=0.0 m.
(g=9.81 m/s2)
Express your answer with
minimum 2 DIGITS after
the decimal point.
Note: You must use a DECIMAL
POINT (.) when it is necessary and must not enter any
unit in your answers.
х Position sensor mc Cac TO хо mo
attached to a spring in one end, and to a mass
of m0=0.76 kg in
the other, as seen in the figure. When the car is released from the
initial position x0, it makes a
simple harmonic motion. The solution for the equation of motion of
this car is given as x(t)=m0g/k-A
cos(ωt), where g is the
gravitational acceleration, k is the
spring constant, A is the system
parameter, and ω is the frequency of
oscillation.
Calculate the maximum distance travelled by the car in unit of
meter, if the spring constant is k=19.1
kg/s2 and the car is released
from x0=0.0 m.
(g=9.81 m/s2)
Express your answer with
minimum 2 DIGITS after
the decimal point.
Note: You must use a DECIMAL
POINT (.) when it is necessary and must not enter any
unit in your answers.
- A Car Of Mass Mc 2 Kg Is Attached To A Spring In One End And To A Mass Of M0 0 76 Kg In The Other As Seen In The Figur 1 (52.02 KiB) Viewed 41 times