Impact Dynamics - University of Alberta
... exercise.) Now that the governing equations have been found, a propagation simulation can be found using MATLAB. Our goal is to use the ODE45 command and have something of the form: [time,X matrix]=ode45(@function name,time range,[initial conditions]) The state variables have been defined as x1 = po ...
... exercise.) Now that the governing equations have been found, a propagation simulation can be found using MATLAB. Our goal is to use the ODE45 command and have something of the form: [time,X matrix]=ode45(@function name,time range,[initial conditions]) The state variables have been defined as x1 = po ...
mechanical resonance
... 5. Measure the displacement amplitude, xm, and displacement phase angle θ (between the driving force and the displacement) as a function of the driving frequency. Start with the lowest frequency. The angle will be small, close to 10° or 20°. AS you increase the driving frequency, you will go past 90 ...
... 5. Measure the displacement amplitude, xm, and displacement phase angle θ (between the driving force and the displacement) as a function of the driving frequency. Start with the lowest frequency. The angle will be small, close to 10° or 20°. AS you increase the driving frequency, you will go past 90 ...
5 Simple Harmonic Motion 1
... viscous resistance retarding force of magnitude c v x. If three kinds of oils are used in three successive experiments, with c= 15, 20, and 25 Ns/m. In each experiment the block is pulled 1 meter from the equilibrium position and then released. Determine in each case whither the motion is overdampi ...
... viscous resistance retarding force of magnitude c v x. If three kinds of oils are used in three successive experiments, with c= 15, 20, and 25 Ns/m. In each experiment the block is pulled 1 meter from the equilibrium position and then released. Determine in each case whither the motion is overdampi ...
The Mechanical Energy of an object is the total of all kinetic energy
... m/s. The force of friction between the mass and the surface on which it is sliding is 0.240 N. If the mass compresses the spring 10.0 cm: (a) What is the kvalue for the spring? (b) How fast will the mass be moving as it leaves the spring? ...
... m/s. The force of friction between the mass and the surface on which it is sliding is 0.240 N. If the mass compresses the spring 10.0 cm: (a) What is the kvalue for the spring? (b) How fast will the mass be moving as it leaves the spring? ...
Circular and Simple Harmonic Motion Test Review Sheet
... Circular and Simple Harmonic Motion Test Review Sheet 1. The time taken to complete one cycle or oscillation is called the ____________________. 2. Motion back and forth over the same path in equal intervals of time is called ____________________. 3. The number of cycles per unit of time is called t ...
... Circular and Simple Harmonic Motion Test Review Sheet 1. The time taken to complete one cycle or oscillation is called the ____________________. 2. Motion back and forth over the same path in equal intervals of time is called ____________________. 3. The number of cycles per unit of time is called t ...
Supplementary Problems
... between the rails. Calculate this ratio for a speed of 150 kmhr?1 in latitude 45 deg North, assuming that h = 2a. Which rail experiences the larger force? 16. A uniform solid ball has a few turns of light string wound around it. If the end of the string is held steady and the ball allowed to fall un ...
... between the rails. Calculate this ratio for a speed of 150 kmhr?1 in latitude 45 deg North, assuming that h = 2a. Which rail experiences the larger force? 16. A uniform solid ball has a few turns of light string wound around it. If the end of the string is held steady and the ball allowed to fall un ...
Chapter 10 – Simple Harmonic Motion and Elasticity
... where L is the distance between the axis of rotation and the center of gravity of the rigid object. It is not necessary that the object is a particle, it may be an extended object, in which case the pendulum is called a physical pendulum. For small oscillations, equation 10.5 still applies, but the ...
... where L is the distance between the axis of rotation and the center of gravity of the rigid object. It is not necessary that the object is a particle, it may be an extended object, in which case the pendulum is called a physical pendulum. For small oscillations, equation 10.5 still applies, but the ...
University of Puerto Rico
... 17. An open tank contains a liquid substance. The atmospheric pressure is 1.01 X 105 Pa, the depth of the liquid is 10.0 m and the absolute pressure at the bottom of the tank is 1.50 X 105 Pa. The density of the liquid is: a) 2.53 X 103 kg / m3 b) 1.53 X 103 kg / m3 c) 1.01 X 103 kg / m3 d) 500 kg / ...
... 17. An open tank contains a liquid substance. The atmospheric pressure is 1.01 X 105 Pa, the depth of the liquid is 10.0 m and the absolute pressure at the bottom of the tank is 1.50 X 105 Pa. The density of the liquid is: a) 2.53 X 103 kg / m3 b) 1.53 X 103 kg / m3 c) 1.01 X 103 kg / m3 d) 500 kg / ...
