That's a vector that describes the position of an object.
Vector-it has both magnitude and direction
1) The position vector of a particle is r= (a cosώt) i+ (a sinώt) j. The velocity of the particle is and find the parallel position vector.
The vector quantity that indicates movement from one point to another is the velocity. The velocity is the rate of change of position and is a vector quantity.
The moment of linear momentum is called angular momentum. or The vector product of position vector and linear momentum is called angular momentum.
BY -Er. Ankit gangwarFREE VECTOR-a vector of which only the magnitude and direction are specified, not the position or line of action.BOUND VECTOR-A vector whose line of application and point of application are both prescribed, in addition to its direction.
Position is a vector quantity.
A position vector tells us the position of an object with reference to the origin
Yes, it is a vector quantity.
Vector-it has both magnitude and direction
1) The position vector of a particle is r= (a cosώt) i+ (a sinώt) j. The velocity of the particle is and find the parallel position vector.
a translation
the force of attraction or repulsion = (k*q1*q2*r')/r^3 where r' is the position vector
If s is the vector which denoted the position at time t, then the vector ds/dt is the required vector. Its magnitude is the car's speed and its direction is the car's.
Position is a vector and displacement is also a vector. The difference is that, position describes a specific point relative to a reference point and displacement is the straight-line distance and direction from one point to another.
The vector quantity that indicates movement from one point to another is the velocity. The velocity is the rate of change of position and is a vector quantity.
The shortest distance between the final position and initial position is known as displacement is vector quantity.
An Arrow can be used to represent a vector by having the direction of the arrow indicate the direction of the vector and the size or length of the arrow represent the size of the vector.