How Long Would It Take to Travel to Delta Pavonis?

Delta Pavonis is a yellow subgiant 19.9 light-years away in the constellation Pavo. It's remarkably similar to the Sun and has been a prime target for SETI observations.

Distance 19.92 light-years

Star Type Yellow subgiant (G8IV)

Constellation Pavo

Apparent Magnitude 3.56

Time Dilation Formula Calculator

Calculation Mode:

Spacecraft accelerates continuously throughout the journey. Realistic for ion drives or theoretical propulsion.

Distance (light-years): Distance to Delta Pavonis

Acceleration (m/s²):

Velocity (fraction of c):

Speed vs Time

This chart shows how quickly you accelerate to a fraction of the speed of light over time.

Distance vs Time

Shows distance covered (in light-years) over time.

Traveler's vs Observer's Time

Shows how time experienced by the traveler differs from time on Earth.

Energy Requirement vs Distance

Shows the (simplified) energy requirements for maintaining relativistic travel as distance increases.

Doppler Shift vs Time

Shows how the Doppler effect changes observed wavelengths over time.

Velocity vs Distance

Shows how your speed changes as you travel further from your starting point.

Lorentz Factor vs Time

Shows how the Lorentz factor (γ) grows over time as relativistic effects increase.

Proper vs Observer Distance

Shows how distance measurements differ between the traveler's frame and the observer's frame.

Facts About Delta Pavonis

At light speed, the journey would take 19.9 years
Delta Pavonis is 99.1% of the Sun's mass
The star has been targeted by multiple SETI projects

Notable For: Very Sun-like star, target for SETI observations

Frequently Asked Questions

How long to travel to Delta Pavonis?

At light speed, it would take 19.9 years to reach Delta Pavonis. At 1g constant acceleration with deceleration, a traveler would experience about 10.2 years.

Why is Delta Pavonis a SETI target?

Delta Pavonis is remarkably similar to the Sun in mass and temperature, making it an ideal candidate for hosting Earth-like planets. It's been observed by multiple SETI projects.

How to Use This Calculator

This time dilation calculator lets you enter a distance in light-years and acceleration in m/s² to see how time dilation affects your journey. It shows differences between traveler and observer times, maximum velocity, energy requirements, Doppler shift, Lorentz factor, and how distances vary between reference frames. Charts appear after you calculate.

Results

Traveler's Time: How much time the person on the spaceship experiences
Observer's Time: How much time passes on Earth during the journey
Maximum Velocity: The highest speed reached, as a fraction of light speed

Interactive Charts

Speed vs Time: How quickly you accelerate towards light speed
Distance vs Time: How far you've traveled over time
Traveler's vs Observer's Time: Compare time passage between Earth and spaceship
Energy Requirement vs Distance: How much energy is needed as you travel further
Doppler Shift vs Time: How light wavelengths change during your journey
Velocity vs Distance: Your speed at different distances
Lorentz Factor vs Time: How much time dilation increases with speed
Proper vs Observer Distance: How distance measurements differ between frames

What is Time Dilation?

Time dilation is an effect from Einstein's theory of special relativity. The faster you move, the slower time passes for you compared to someone standing still. At 90% of light speed, time passes about 2.3 times slower for the traveler than for someone on Earth.

What is the Time Dilation Formula?

The Time Dilation Formula is:

t' = t / √(1 - v²/c²)

Where:
t' = time measured by the observer (on Earth)
t = time experienced by the traveler
v = velocity of the traveler
c = speed of light (299,792,458 meters per second)