rotation
... Dynamics of rolling and slipping We will assume that the axis along which the angular momentum points does not change direction. A baseball curve ball is too hard for us to deal with. Just as we could break the kinetic energy into two parts, so too can we break down the angular momentum: ...
... Dynamics of rolling and slipping We will assume that the axis along which the angular momentum points does not change direction. A baseball curve ball is too hard for us to deal with. Just as we could break the kinetic energy into two parts, so too can we break down the angular momentum: ...
9-1 Simple Rotations of a Rigid Body
... Gravitational torque acts at the center of mass, as if all mass were concentrated there: ...
... Gravitational torque acts at the center of mass, as if all mass were concentrated there: ...
Newtons 1st Law notes
... Balanced Forces Net Force—when 2 or more forces act on an object at the same time The object does not move if the forces cancel each other out. Balanced Forces—forces on an object that are equal in size and opposite in direction. ...
... Balanced Forces Net Force—when 2 or more forces act on an object at the same time The object does not move if the forces cancel each other out. Balanced Forces—forces on an object that are equal in size and opposite in direction. ...
Linear and angular concepts
... body that is rotating remains rotating straight line unless acted upon by an unless acted upon by an outside torque. outside force. Inertia is the property of a body that resists changes in position or linear motion. ...
... body that is rotating remains rotating straight line unless acted upon by an unless acted upon by an outside torque. outside force. Inertia is the property of a body that resists changes in position or linear motion. ...
Forces in One Direction
... • From our introduction we learned that forces are a push or pull in a particular direction. – Therefore velocity is affected – Therefore acceleration is affected ...
... • From our introduction we learned that forces are a push or pull in a particular direction. – Therefore velocity is affected – Therefore acceleration is affected ...
Infinitesimal strain
... In Einstein summation notation, time derivatives are expressed with an overdot, so we’ll also use ai = üi. Mass m is equal to density times volume, m = V = dx1dx2dx3, so we can write the force balance in the x1-direction as ...
... In Einstein summation notation, time derivatives are expressed with an overdot, so we’ll also use ai = üi. Mass m is equal to density times volume, m = V = dx1dx2dx3, so we can write the force balance in the x1-direction as ...
Name: Notes - 4.2 Newton`s First Law of Motion: Inertia 1. State
... 3. Why does an object given a push across a surface slow down? Why is this in agreement with Newton’s 1st Law? ...
... 3. Why does an object given a push across a surface slow down? Why is this in agreement with Newton’s 1st Law? ...
PDF#10
... sliding of one object over the surface of the adjacent one. It is tangent to the surface of the adjacent object and opposite in direction to the velocity of the moving object. The magnitude of the frictional force is assumed to be proportional to the magnitude of the normal force between ...
... sliding of one object over the surface of the adjacent one. It is tangent to the surface of the adjacent object and opposite in direction to the velocity of the moving object. The magnitude of the frictional force is assumed to be proportional to the magnitude of the normal force between ...
Document
... sliding of one object over the surface of the adjacent one. It is tangent to the surface of the adjacent object and opposite in direction to the velocity of the moving object. The magnitude of the frictional force is assumed to be proportional to the magnitude of the normal force between ...
... sliding of one object over the surface of the adjacent one. It is tangent to the surface of the adjacent object and opposite in direction to the velocity of the moving object. The magnitude of the frictional force is assumed to be proportional to the magnitude of the normal force between ...
Mongar Higher Secondary School
... f) Explain why a tea cup breaks on falling on the ground? g) A 1000kg vehicle is moving with a velocity of 10ms-1. calculate the magnitude of the force which can increase its velocity to 25cm-1 in 5s h) Define momentum and list the factors on which the momentum of the body ...
... f) Explain why a tea cup breaks on falling on the ground? g) A 1000kg vehicle is moving with a velocity of 10ms-1. calculate the magnitude of the force which can increase its velocity to 25cm-1 in 5s h) Define momentum and list the factors on which the momentum of the body ...
Cut squares along dotted line then fold in half to make flashcard
... The path of flying object: the path that a projectile makes through space under the action of given forces such as thrust, wind, and gravity. ...
... The path of flying object: the path that a projectile makes through space under the action of given forces such as thrust, wind, and gravity. ...
Presentation - Personal.psu.edu
... connected ) are suspended by an upward force in a homogenous gravitational field then when the object achieves static equilibrium Ftot = F up + Mtot g = 0 (no change of vcm from 0) F up = -Mtot g t tot about center of mass must be zero (no change of acm from 0) t tot = text = 0 = r 1 F up where ...
... connected ) are suspended by an upward force in a homogenous gravitational field then when the object achieves static equilibrium Ftot = F up + Mtot g = 0 (no change of vcm from 0) F up = -Mtot g t tot about center of mass must be zero (no change of acm from 0) t tot = text = 0 = r 1 F up where ...
Bio-physical principles
... A body will maintain a state of rest or constant velocity unless acted on by an external force. Implication: -Tackling in Rugby -Deflection of the ball in basketball -Weight training The inertia of an object is directly proportional to its mass. Therefore you need more force to alter the movement of ...
... A body will maintain a state of rest or constant velocity unless acted on by an external force. Implication: -Tackling in Rugby -Deflection of the ball in basketball -Weight training The inertia of an object is directly proportional to its mass. Therefore you need more force to alter the movement of ...