Version history
Future Land
17
ASO score
Text
4/100
Reviews
0/100
Graphic
60/100
Other
0/100
App Rating
2
Votes
43
App Age
16y 1m
Last Update
Jul 19, 2025
Compare with Category Top Apps
|
Metrics
|
Current App
|
Category Top Average
|
Difference
|
|---|---|---|---|
|
Rating
|
1.96
|
4.48
|
-56%
|
|
Number of Ratings (Voted)
|
43
|
130.5K
|
-100%
|
|
App Age
|
16y 1m
|
9y 11m
|
+62%
|
|
In-app Purchases Price
|
$0
|
$52
|
|
|
Update Frequency
|
166d
|
73d
|
+126%
|
|
Title Length
|
11
|
25
|
-56%
|
|
Subtitle Length
|
0
|
27
|
|
|
Description Length
|
1 173
|
2 721
|
-57%
|
|
Number of Screenshots
|
491
|
1370
|
-64
%
|
|
Size
|
44MB
|
163MB
|
-73
%
|
Category Ranking in United States
7 days
Last 7 days
Last 30 days
Last 90 days
Last 180 days
Last year
| Top | Dec 25, 2025 | Jan 01, 2026 |
|---|---|---|
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No results were found!
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| Top | Dec 25, 2025 | Jan 01, 2026 |
|---|---|---|
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No results were found!
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| Top | Dec 25, 2025 | Jan 01, 2026 |
|---|---|---|
|
No results were found!
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| Top | Dec 25, 2025 | Jan 01, 2026 |
|---|---|---|
|
No results were found!
|
||
Ranking Keywords in United States
| Keywords | App Rank |
|---|
Analyze this and other apps using Asolytics tools
Text ASO
Title
(
Characters:
11
of 30
)
Future Land
Subtitle
(
Characters:
0
of 30
)
Description
(
Characters:
1173
of 4000
)
Lorentz contraction
The lenght of an object moving at speeds approaching the speed of light, with respect to an observer at rest, will contract along the direction of motion by the factor
L = L1 * sqrt(1-(v/c)^2) where L is the length observed by the observer in state of rest, L1 is the length measured when the object is motionless, 'v' is the velocity of the object and 'c' is the speed of light (about 300000 km/sec),
In our case the Eiffel Tower (about 320 meters) when it approachs the speed of light its lenght will shrink as the screen image.
The program will also display the correct data.
Time in the moving system will be observed by a stationary observer to be running slower. In other words if the Eiffeil tower would travel during one year (tower time) at 95% of the speed of light, the elapsed time on the Earth will be equal to 3.2 years and the tower lenght will be about 100 meters.
Travel into the future.
It is possible "to travel into the future" by using a very speed spacecraft. Depending on the acceleration of the spacecraft (in our case from 1 to 5 G) and the time spent on board, on the Earth will spend a greater number of years.
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Other
Additional Information
Version history
1.4
Jul 19, 2025
Compatibility with newer devices
1.3
Feb 23, 2022
Compatibility with iOS 15