<h2>Introducing Relativistic Addition of Velocities</h2>
<div class="fig_container" id="navlink_id2806897"><img alt="A man with oar in his hand is kayaking downstream in a shallow fast-flowing river." src="https://data.ulearngo.com/assets/f52d8513-b444-4d5e-9302-2d448dfed86f"/>
<p class="fig_caption">The total velocity of a kayak, like this one on the Deerfield River in Massachusetts, is its velocity relative to the water as well as the water’s velocity relative to the riverbank. (credit: abkfenris, Flickr)</p>
</div>
<p>If you’ve ever seen a kayak move down a fast-moving river, you know that remaining in the same place would be hard. The river current pulls the kayak along. Pushing the oars back against the water can move the kayak forward in the water, but that only accounts for part of the velocity. The kayak’s motion is an example of classical addition of velocities. In classical physics, velocities add as vectors. The kayak’s velocity is the vector sum of its velocity relative to the water and the water’s velocity relative to the riverbank.</p>

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Introducing Relativistic Addition of Velocities

Physics is a science discipline concerned with the nature and properties of matter and energy. Physics topics include mechanics, heat, light and radiation, sound, electricity, magnetism, the structure of atoms, and so on.

Physics

Discover the fascinating world of Special Relativity, including Einstein&#8217;s postulates, time dilation, length contraction, relativistic addition of velocities, and the concepts of relativistic momentum and energy.


Introducing Relativistic Addition of Velocities

Introducing Relativistic Addition of Velocities

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