The instantaneous center of rotation is a point in a rigid body that has zero velocity at a specific moment in time. It is the point around which all parts of the rigid body have rotation at that moment. It helps to analyze the motion of the rigid body at that instant.
At a given moment in time, instantaneous speed can be thought of as the magnitude of the instantaneous velocity of an object. Instantaneous velocity is the rate of change of an object's position at that specific moment in time.
The axis of rotation is an imaginary line that runs through the center of an object around which the object rotates. It is the fixed point around which the object spins or revolves.
Instantaneous velocity is a vector quantity.
I once had a caravan fitted with an instantaneous water heater.
Instantaneous velocity is a vector quantity that includes both the speed and direction of an object at a specific moment. Instantaneous speed, on the other hand, is a scalar quantity representing only the magnitude of the velocity without regard to direction.
The answer depends on the centre of rotation. A rotation cannot be described without specifying the centre of rotation.
The answer depends on the centre of rotation. A rotation cannot be described without specifying the centre of rotation.
The answer depends on the centre of rotation. A rotation cannot be described without specifying the centre of rotation.
The answer depends on the centre of rotation. A rotation cannot be described without specifying the centre of rotation.
A transformation, in the form of a rotation requires the centre of rotation to be defined. There is no centre of rotation given.
That depends upon the centre of rotation - it can be any point at all in the plane; eg: If the centre is (-1, -2), then after the rotation (-1, -2) → (-1, -2) If the centre is (-0, 0), then after the rotation: (-1, -2) → (2, -1) If the centre is (1, 2), then after the rotation: (-1, -2) → (5, 0) etc.
centre it and that is the answer
The centre of rotation, the angle of rotation and, unless the angle is 180 degrees, the direction of rotation.
The answer depends on the centre of rotation. Since this is not given, there can be no answer.
If you mean equilibrium or centre of balance then it is at where its diagonals intersect. The intersection of the diagonals is also the centre of symmetry; a rhombus has 2-fold rotation symmettry.
The answer will depend on where the centre of rotation is. Since that it not specified, the image could by anywhere.
depends on the centre of rotation if it's about the origin the x coord is multiplied by -1