simply: No, Velocity vectors are different to force vectors. One measures velocity and one measures force so you can not simply add/subtract/multiply/divide them together and get something meaningful.
Velocity and Force
P= F.v, where P is power, and F.v is the dot product of the Force and velocity vectors.
I only know three: Velocity,Acceleration, and Force
force velocity displacement energy (has to have magnitude and direction)
No, scalars and vectors are not the same. Scalars are measurements in numbers. Examples: work, energy, mass, speed, and distance. Scalars measure in one magnitude. Vectors measure velocity, acceleration, force, and momentum.
No
Velocity and Force
P= F.v, where P is power, and F.v is the dot product of the Force and velocity vectors.
I only know three: Velocity,Acceleration, and Force
Force, velocity, acceleration, and displacement are vectors. Mass, temperature, time, cost, and speed are scalars (not vectors).
force velocity displacement energy (has to have magnitude and direction)
Typical uses of vectors include force, position, velocity, acceleration, torque, rotational movement, and others.
Vectors can represent anything that has both magnitude and direction, like velocity, acceleration, momentum, force, etc.
The sum of vectors is not always a force. It might be a displacement, a velocity, acceleration, momentum, divergence, curl, gradient, etc. In any case, the algebraic combination of several individual vectors is the "resultant".
Force is not the same as velocity. I think you're asking "Are they similar in any way ?" and you want me to say that they both have direction, which makes them both "vectors".
Two vectors: no. Three vectors: yes.
Navigators need to be able to combine the marine vessel's velocity with that of the any currents to arrive at the resultant speed and direction. This requires addition of the vectors representing the velocities of the vessel and of the current. It may also be necessary to add the wind velocity.