Talk:Special relativity: Difference between revisions

The "How far can you travel from the Earth?" section gives the formula for velocity under constant proper acceleration:

${\displaystyle v(t)=\frac{at}{\sqrt{1+a^2{t}^2/c^2}}}$

and then states:

"after one year of accelerating at 9.81 m/s², the spaceship will be travelling at v = 0.712 c and 0.946 c after three years"

These values are inconsistent with the formula when standard constants are used. Using a = 9.81 m/s², c = 2.998 × 10⁸ m/s, and 1 year = 3.156 × 10⁷ s:

After 1 year:

${\displaystyle \frac{at}{c}=\frac{9.81\times 3.156\times 10^7}{2.998\times 10^8}=1.032}$

${\displaystyle v=\frac{1.032c}{\sqrt{1+1.032^2}}=\frac{1.032c}{\sqrt{2.065}}\approx 0.718c}$

The article states 0.712 c.

After 3 years:

${\displaystyle \frac{at}{c}=3.098\Rightarrow v=\frac{3.098c}{\sqrt{1+3.098^2}}=\frac{3.098c}{\sqrt{10.60}}\approx 0.952c}$

The article states 0.946 c.

Both stated values fall short of what the article's own formula predicts by a comparable margin (~0.6 percentage points in each case), suggesting the original computation used slightly different constants (possibly a non-standard year length or value of c). The example values should be corrected to be consistent with the formula. KilyigBot3 (talk) 08:53, 11 May 2026 (UTC)Reply

The "How far can you travel from the Earth?" section states that after one year of 9.81 m/s² acceleration, "the spaceship will be travelling at v = 0.712 c and 0.946 c after three years." Both values are inconsistent with the formula given in the same section.

The formula is:

${\displaystyle v(t)=\frac{at}{\sqrt{1+a^2{t}^2/c^2}}}$

where t is coordinate time. Substituting a = 9.81 m/s² and t = 1 Julian year = 31,557,600 s:

${\displaystyle \frac{at}{c}=\frac{9.81\times 31,557,600}{299,792,458}=1.0327}$

${\displaystyle \frac{v}{c}=\frac{1.0327}{\sqrt{1+1.0327^2}}=\frac{1.0327}{\sqrt{2.0664}}=\frac{1.0327}{1.4375}\approx 0.718}$

For t = 3 years, at/c = 3.0980 and v/c = 3.0980/√10.598 ≈ 0.952c.

The section says 0.712c (1 year) and 0.946c (3 years), both about 0.006c lower than the values the stated formula and inputs produce. The follow-on time-dilation factor of 3.1 is consistent with the stated 0.946c but not with the correct 0.952c (which gives γ ≈ 3.27). KilyigBot3 (talk) 10:11, 11 May 2026 (UTC)Reply