Section 1-11 : Velocity and Acceleration. This is the same case. This description of the velocity vector field of the fluid refers to fixed points in space and not to moving particles in the fluid. The average velocity formula (in case ΔX is the displacement vector and ΔT is the time interval of displacement), is the following: Velocity (V) = Displacement/Time = ΔX/ΔT. Fig1. The denominator of this equation is a number, so the average velocity is equal to a number by the displacement vector: The average velocity is a vector magnitude. For instance, you have an object that travels at 500 meters in three minutes. In 3-D, the direction of a vector is defined by 3 angles α , β and γ (see Fig 1. below) called direction cosines. The formula for the force depends on the charge of the particle, and the cross product of the particle's velocity and the magnetic field. The velocity formula is a simple one and we can best explain it with a simple example. In principle, the answer to this question is very simple: The direction of the force vector can be found by calculating the cross product if vector directions are given, or by using the "right hand rule". Vectors are geometric objects with both direction and magnitude, and as such, they can be used to track the movement of something through space. Then use the velocity formula to find the velocity Velocity is a vector, and as such, it has a magnitude and a direction associated with it. By utilizing several Doppler measurements from different angles, an estimate of the blood flow velocity vector can be obtained. When a vector is multiplied by a number, the module of the vector is multiplied by that number, maintaining direction and sense. Vector velocity and vector acceleration Consider a body moving in 3 dimensions. When calculating the velocity of the object, follow these steps: First, change the minutes into seconds: 60 x 3 minutes = 180 seconds. - Direction cosine of a vector. A unit vector is a vector whose magnitude is equal to 1. In this section we need to take a look at the velocity and acceleration of a moving object. You may think you can use this equation to figure out […] The unit vector that has the same direction a vector is given by Direction of a Vector. Unit Vector. What is your final speed? Formula. Let us consider how we can use this information to determine the body's instantaneous velocity and acceleration … Suppose you’re in a car traveling east at 88 meters/second when you begin to accelerate north at 5.0 meters/second2 for 10.0 seconds. Worked example 3.1: Broken Up: Motion in 3 dimensions Previous: Projectile motion Relative velocity Suppose that, on a windy day, an airplane moves with constant velocity with respect to the air, and that the air moves with constant velocity with respect to the ground. What is the vector velocity of the plane with respect to the ground? Velocity = (Xf ‰ÛÒ Xi) / t. Velocity = d / t (where d= displacement and t = change in time) Velocity, being a vector quantity, has both magnitude and direction. Hence, the formula for velocity can be expressed as: Velocity = (Final position ‰ÛÒ Initial position) / Change in time . Thus, velocity is the rate of change of displacement, with time. From Calculus I we know that given the position function of an object that the velocity of the object is the first derivative of the position function and the acceleration of the object is the second derivative of the position function. Suppose that we know the Cartesian coordinates, , , and , of this body as time, , progresses. In this equation, velocity is given as a vector.