3.1. Hydrostatics: Variation of pressure with elevation. Here, we
... Pressure variations in a gas. For a gas, the density is no longer constant, but is a function of pressure (and of temperature – although temperature variations are usually less significant than those of pressure), and there are two approaches: 1. For small changes in elevation, the assumption of con ...
... Pressure variations in a gas. For a gas, the density is no longer constant, but is a function of pressure (and of temperature – although temperature variations are usually less significant than those of pressure), and there are two approaches: 1. For small changes in elevation, the assumption of con ...
MAE 241 –Statics Fall 2006 Jacky C. Prucz
... To state Newton’s Second Law of Motion and to define mass and weight. To analyze the accelerated motion of a particle using the equation of motion with ...
... To state Newton’s Second Law of Motion and to define mass and weight. To analyze the accelerated motion of a particle using the equation of motion with ...
Rotational Inertia and Angular Momentum
... Torque and Balancing • If a teeter-totter is balanced, that means that the torque on both sides is equal but in the opposite direction. • A common mistake is that students think the force is the same on both sides but that is not true. THE TORQUE MUST BE THE EQUAL! ...
... Torque and Balancing • If a teeter-totter is balanced, that means that the torque on both sides is equal but in the opposite direction. • A common mistake is that students think the force is the same on both sides but that is not true. THE TORQUE MUST BE THE EQUAL! ...
Document
... system of rigid bodies pass through a given point O, the angular momentum of the system about O is conserved. ...
... system of rigid bodies pass through a given point O, the angular momentum of the system about O is conserved. ...
Oscillations
... equilibrium position. Find the time period of oscillations. 6.22 Two simple pendulums of length 60 and 63 cm, respectively, hang vertically one in front of the other. If they are set in motion simultaneously, find the time taken for one to gain a complete oscillation on the other. [Northern Universi ...
... equilibrium position. Find the time period of oscillations. 6.22 Two simple pendulums of length 60 and 63 cm, respectively, hang vertically one in front of the other. If they are set in motion simultaneously, find the time taken for one to gain a complete oscillation on the other. [Northern Universi ...