tor important to marine people
Vector is NOT a scalar. The two (vector and scalar) are different things. A vector is a quantity (measurement) in which a direction is important. A scalar is a quantity in which a direction is NOT important.
Force is a vector quantity and vector quantities have both direction and magnitude.
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vector is important because it shows direction as well as magnitude
A vector is a physical magnitude where not only a number is important, but also an associated direction. This is commonly used (for example) for velocity, acceleration, force, and many others.
what will be the importance of maritime law in my profession as a maritime cadet
Vector is NOT a scalar. The two (vector and scalar) are different things. A vector is a quantity (measurement) in which a direction is important. A scalar is a quantity in which a direction is NOT important.
Vectors are an important part of navigation.
Force is a vector quantity and vector quantities have both direction and magnitude.
To specify a vector, you need a length (or magnitude), and a direction.
A scalar is a magnitude that doesn't specify a direction. A vector is a magnitude where the direction is important and is specified.
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parsec
Scalar contains only the magnitude but Vector contains the magnitude and direction.
Vector Graphics are made up og lines and curves. A very nice thing about vector graphics is that you can move them around freely, without using detail or it's clarity. Vector graphics are best for artworks such as logos.
Zero vector or null vector is a vector which has zero magnitude and an arbitrary direction. It is represented by . If a vector is multiplied by zero, the result is a zero vector. It is important to note that we cannot take the above result to be a number, the result has to be a vector and here lies the importance of the zero or null vector. The physical meaning of can be understood from the following examples. The position vector of the origin of the coordinate axes is a zero vector. The displacement of a stationary particle from time t to time tl is zero. The displacement of a ball thrown up and received back by the thrower is a zero vector. The velocity vector of a stationary body is a zero vector. The acceleration vector of a body in uniform motion is a zero vector. When a zero vector is added to another vector , the result is the vector only. Similarly, when a zero vector is subtracted from a vector , the result is the vector . When a zero vector is multiplied by a non-zero scalar, the result is a zero vector.