[object Object]
To find the acceleration of a particle using the vector method, you can use the equation a = r x (w x v), where "a" is the acceleration, "r" is the position vector, "w" is the angular velocity vector, and "v" is the velocity vector. The cross product (x) represents the vector cross product. By taking the cross product of the angular velocity vector with the velocity vector and then multiplying the result by the position vector, you can find the acceleration of the particle.
The length represents the magnitude or distance from the origin.
A vector quantity is any quantity in which a direction is relevant. Some examples include position, velocity, acceleration, force, momentum, rotational momentum (the vector is defined to point in the direction of the axis in this case), torque, etc.
A vector represented in Cartesian plane. For eg velocity of particle moving on road taking into account length and breadth of road. An ant moving on a floo
That's a vector that describes the position of an object.
To find the acceleration of a particle using the vector method, you can use the equation a = r x (w x v), where "a" is the acceleration, "r" is the position vector, "w" is the angular velocity vector, and "v" is the velocity vector. The cross product (x) represents the vector cross product. By taking the cross product of the angular velocity vector with the velocity vector and then multiplying the result by the position vector, you can find the acceleration of the particle.
A position vector tells us the position of an object with reference to the origin
Examples of vector energy Torque = FxD = FDsin(FD) also particle motion , E= mcV.
The length represents the magnitude or distance from the origin.
Since torque is a force, and as such has a direction, it is a vector.
You forgot to include the list, but typical vector quantities include position, velocity, acceleration, force, torque, momentum, rotational momentum.
A vector quantity is any quantity in which a direction is relevant. Some examples include position, velocity, acceleration, force, momentum, rotational momentum (the vector is defined to point in the direction of the axis in this case), torque, etc.
t = r X F, where t is torque, r is displacement, and F is force; all quantities are vectors. Because the formula contains a cross product, the magnitude of the torque is given by the expression rFsin(θ), where θ is the angle between the position vector and the force vector.
A vector represented in Cartesian plane. For eg velocity of particle moving on road taking into account length and breadth of road. An ant moving on a floo
Allways...
A radius (or radial) vector is a vector which goes through the origin. That is going directly away from (or toward) the origin. A vector that is not radial is a transverse vector
Position is a vector quantity.