On an element-wise basis, computes the hyperbolic cosine of the input.
| Usage | Returns | Array.cosh() | Array |
| Argument | Type | Details | this: input | Array | The input array. |
Examples
Code Editor (JavaScript)
print(ee.Array([-4]).cosh()); // [~27.31]
print(ee.Array([0]).cosh()); // [1]
print(ee.Array([4]).cosh()); // [~27.31]
var start = -4;
var end = 4;
var points = ee.Array(ee.List.sequence(start, end, null, 50));
var values = points.cosh();
// Plot cosh() 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);
Python setup
See the
Python Environment page for information on the Python API and using
geemap for interactive development.
import ee
import geemap.core as geemap
Colab (Python)
import altair as alt
import pandas as pd
display(ee.Array([-4]).cosh()) # [~27.31]
display(ee.Array([0]).cosh()) # [1]
display(ee.Array([4]).cosh()) # [~27.31]
start = -4
end = 4
points = ee.Array(ee.List.sequence(start, end, None, 50))
values = points.cosh()
df = pd.DataFrame({'x': points.getInfo(), 'cosh(x)': values.getInfo()})
# Plot cosh() defined above.
alt.Chart(df).mark_line().encode(
x=alt.X('x', axis=alt.Axis(values=[start, 0, end])),
y=alt.Y('cosh(x)')
)