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Introduction to Vectors01:21

Introduction to Vectors

To define some physical quantities, there is a need to specify both magnitude as well as direction. For example, when the U.S. Coast Guard dispatches a ship or a helicopter for a rescue mission, the rescue team needs to know not only the distance to the distress signal, but also the direction from which the signal is coming, so that they can get to it as quickly as possible. Physical quantities specified completely with a number of units (magnitude) and a direction are called vector quantities.
Direction of Acceleration Vectors01:10

Direction of Acceleration Vectors

Acceleration occurs when velocity changes in magnitude (an increase or decrease in speed), direction, or both. Although acceleration is in the direction of the change in velocity, it is not always in the direction of motion. When an object slows down, its acceleration is opposite to the direction of its motion. This is commonly referred to as deceleration. However, the term deceleration can cause confusion in analysis because it is not a vector; it does not point to a specific direction with...
Magnetic Fields01:27

Magnetic Fields

A moving charge or a current creates a magnetic field in the surrounding space, in addition to its electric field. The magnetic field exerts a force on any other moving charge or current that is present in the field. Like an electric field, the magnetic field is also a vector field. At any position, the direction of the magnetic field is defined as the direction in which the north pole of a compass needle points.
A magnetic field is defined by the force that a charged particle experiences...
Introduction to Vectors01:29

Introduction to Vectors

Vectors provide a concise mathematical framework for describing motion in three-dimensional space. For a moving ball, quantities such as displacement and velocity are naturally represented as vectors because they include both magnitude and direction. Geometrically, a vector is visualized as an arrow extending from one point to another. The length of the arrow corresponds to the vector’s magnitude, while its spatial orientation shows direction. This representation makes vectors especially useful...
Directional Derivatives01:26

Directional Derivatives

In multivariable calculus, partial derivatives describe how a function changes when movement is restricted to a single coordinate direction. For a surface represented by a function of two variables, one partial derivative measures the slope in the x-direction, while the other measures the slope in the y-direction. Although these quantities are useful for analyzing local behavior, most physical motion does not occur strictly parallel to the coordinate axes. Applications such as fluid flow, heat...
Oriented Surfaces01:30

Oriented Surfaces

A surface is called orientable if a consistent choice of unit normal vector can be made at every point on the surface. A thin soap film stretched across a wire loop provides a familiar example. The film separates the air on one side from the air on the other, so one side can be selected as positive and the opposite side as negative. Once this choice is made, a unit normal vector can be assigned smoothly across the entire surface.At each point on the soap film, a unit normal vector points...

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Utilizing Custom-designed Galvanotaxis Chambers to Study Directional Migration of Prostate Cells
08:45

Utilizing Custom-designed Galvanotaxis Chambers to Study Directional Migration of Prostate Cells

Published on: December 7, 2014

方向が違うのか?

Lisa Bowman

    Nature
    |December 12, 2003
    PubMed
    まとめ

    No abstract available in PubMed .

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