Search this site
Skip to main content
Skip to navigation
the traveler kinematic
Home
0. Abstract
1. Introduction
2. Time as merely-local
3. Kinematics teaser
4. Sample extensions
4.1. everyday applications
4.1.1. accelerated frames
4.1.2. the energy vs. momentum half-plane
4.1.3. gravity from differential-aging
4.1.4 magnetism from radar-distance
4.2. high speed problems
4.2.1. colliders vs. accelerators
4.2.2. anyspeed road safety
4.2.3. single-frame time-dilation
4.2.4. accelerated roundtrips
4.2.5. adding 3-vector velocities
4.2.6. acceleration-related aging
4.2.7 the anyspeed 2nd-law
4.2.8 high speed collisions
5. Conclusions
6. Technical appendices
6.1. Lorentz-factor (dt/dτ) from the metric
6.2. proper-acceleration (α) from the Lorentz factor
6.3. constant proper-acceleration integrals
6.4 traveler-point dynamics
Complications un-needed
Empirical observation exercises
EOE-001 Proper vs inertial
EOE-002 B from E
EOE-003 Amperian loops
EOE-004 Fast tracks
EOE-005 Class puzzlers...
EOE-006 Interstellar navigation
EOE-007 Find c using electrons
EOE-008 Cellphones in curved spacetime
Metric-first motion
Other mobile-ready reports
Project miscellany
Files
Technical images
The Team
To-Dos
Project updates
2016 and 2017 updates
Mediawiki joint-editing
Site conversion update
Test post
Test post #2
The x-ct, x-cτ & ρ-cτ plot triplet
the traveler kinematic
404
The page you have entered does not exist
Go to site home
Google Sites
Report abuse
Page details
Page updated
Google Sites
Report abuse