FE6
... A body is weighed in a lift. (This problem was described in Q2.10, FE2, where a fixed frame of reference, outside the lift, was used.) If the frame of reference is attached to the accelerating lift, then the forces on the body being weighed are the gravitational force, the supporting force exerted b ...
... A body is weighed in a lift. (This problem was described in Q2.10, FE2, where a fixed frame of reference, outside the lift, was used.) If the frame of reference is attached to the accelerating lift, then the forces on the body being weighed are the gravitational force, the supporting force exerted b ...
5-2-dynamics-problem
... The approach to these problems consists of: 1.) Sketch an overview of: a.) list of values that identifies known quantities and what the problem is trying to find. b.) A free-body diagram that shows all forces acting on the object. 2.) If kinematics is used to find velocities or positions, also need: ...
... The approach to these problems consists of: 1.) Sketch an overview of: a.) list of values that identifies known quantities and what the problem is trying to find. b.) A free-body diagram that shows all forces acting on the object. 2.) If kinematics is used to find velocities or positions, also need: ...
1 Topic : Rotating Co-ordinate Systems - (SRL)
... inertial and rotating frames. This is purely a mathematical process. What we want to investigate: 1. Given xed rotations, how to transform vectors between frames. How to transform co-ordinates of a xed point between two rotating frames. How to calculate the time derivatives of vectors in one ...
... inertial and rotating frames. This is purely a mathematical process. What we want to investigate: 1. Given xed rotations, how to transform vectors between frames. How to transform co-ordinates of a xed point between two rotating frames. How to calculate the time derivatives of vectors in one ...
Document
... Both forces are proportional to the mass of the object. The Coriolis force is proportional to the rotation rate and the centrifugal force is proportional to its square. The Coriolis force acts in a direction perpendicular to the rotation axis and to the velocity of the body in the rotating fram ...
... Both forces are proportional to the mass of the object. The Coriolis force is proportional to the rotation rate and the centrifugal force is proportional to its square. The Coriolis force acts in a direction perpendicular to the rotation axis and to the velocity of the body in the rotating fram ...
Coriolis Force
... moving objects in a rotating frame of reference It deviates objects to the right (left) for anti-clockwise (clockwise) rotation The deviation vanishes at the equator and reaches its maximum at the poles ...
... moving objects in a rotating frame of reference It deviates objects to the right (left) for anti-clockwise (clockwise) rotation The deviation vanishes at the equator and reaches its maximum at the poles ...
Applications of Newton’s Laws of Motion
... We need VECTOR addition to add forces in the 2nd Law! • Forces add according to the rules of VECTOR ADDITION! ...
... We need VECTOR addition to add forces in the 2nd Law! • Forces add according to the rules of VECTOR ADDITION! ...