A particle with mass m moves in the direction of the X axis, under the influence of the following Forces: spring force, air friction force proportional to velocity and other forces (Ft), where k is the spring constant and ẞ is the coefficient of air friction with the relationship ẞ2<4mk. So that the equation of motion can be expressed as: d²x di³ dx -B-kx+F dt If the above equation has the form of a real equation that is: dx 2 dt2 4+4x-F-cos 31+ 2e dt Find the position x (t) of the particle as a function
A particle with mass m moves in the direction of the X axis, under the influence of the following Forces: spring force, air friction force proportional to velocity and other forces (Ft), where k is the spring constant and ẞ is the coefficient of air friction with the relationship ẞ2<4mk. So that the equation of motion can be expressed as: d²x di³ dx -B-kx+F dt If the above equation has the form of a real equation that is: dx 2 dt2 4+4x-F-cos 31+ 2e dt Find the position x (t) of the particle as a function
Related questions
Question
Solve this problem
Transcribed Image Text:A particle with mass m moves in the direction of the X axis, under the
influence of the following Forces: spring force, air friction force
proportional to velocity and other forces (Ft), where k is the spring
constant and ẞ is the coefficient of air friction with the relationship
ẞ24mk. So that the equation of motion can be expressed as:
d²x
dx
Fratm
B-kx+F
If the above equation has the form of a real equation that is:
-4+4x-F-cos 31 + 2e-21
d²x
dx
dt²
dt
Find the position x (t) of the particle as a function
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 4 steps with 3 images
