AI-generated Key Takeaways
-
The
Array.sinh()method computes the hyperbolic sine of each element in an input array. -
It returns an array of the same shape as the input.
-
The input to the
sinh()method must be an array.
| Usage | Returns |
|---|---|
Array.sinh() | Array |
| Argument | Type | Details |
|---|---|---|
this: input | Array | The input array. |
Examples
Code Editor (JavaScript)
print(ee.Array([-5]).sinh()); // [~ -74.20] print(ee.Array([0]).sinh()); // [0] print(ee.Array([5]).sinh()); // [~ 74.20] var start = -5; var end = 5; var points = ee.Array(ee.List.sequence(start, end, null, 50)); var values = points.sinh(); // Plot sinh() defined above. var chart = ui.Chart.array.values(values, 0, points) .setOptions({ viewWindow: {min: start, max: end}, hAxis: { title: 'x', viewWindowMode: 'maximized', ticks: [ {v: start}, {v: 0}, {v: end}] }, lineWidth: 1, pointSize: 0, }); print(chart);
import ee import geemap.core as geemap
Colab (Python)
import altair as alt import pandas as pd display(ee.Array([-5]).sinh()) # [~ -74.20] display(ee.Array([0]).sinh()) # [0] display(ee.Array([5]).sinh()) # [~ 74.20] start = -5 end = 5 points = ee.Array(ee.List.sequence(start, end, None, 50)) values = points.sinh() df = pd.DataFrame({'x': points.getInfo(), 'sinh(x)': values.getInfo()}) # Plot sinh() defined above. alt.Chart(df).mark_line().encode( x=alt.X('x', axis=alt.Axis(values=[start, 0, end])), y=alt.Y('sinh(x)') )