Acsch Formula

Returns the inverse hyperbolic cosecant of a number, in radians.

Syntax

Formula structure

Source: Quadratic docs
=ACSCH(number)
number
Required: Yes

Required argument used by the ACSCH formula.

Examples for the acsch formula

Copy these examples into a spreadsheet and adjust the ranges for your own data.

ACSCH syntax pattern

=ACSCH(number)

Use this ACSCH pattern as the starting point for your spreadsheet formula.

ACSCH in a worksheet

=ACSCH(A2)

Returns the inverse hyperbolic cosecant of a number, in radians.

When to use ACSCH

Use ACSCH when you need to return the inverse hyperbolic cosecant of a number, in radians.

  • Convert and calculate angles.
  • Model geometry, waves, and other trigonometric relationships.

How ACSCH works in Quadratic

In Quadratic, ACSCH follows the syntax ACSCH(number). The function works inside Quadratic formulas and can be combined with spreadsheet ranges, tables, and other formulas.

Common ACSCH mistakes

Most ACSCH issues come from mismatched argument types, ranges that do not cover the intended data, or optional parameters being omitted when the default behavior is not what you expected.

  • Check each required parameter before copying the formula across a sheet.
  • Confirm that ranges line up with the rows or columns you intend to analyze.
  • Use Quadratic AI to explain or debug the formula when the result looks wrong.

Related formulas

DEGREESRADIANSSINASIN

ACSCH formula FAQ

What does the acsch formula do?

ACSCH returns the inverse hyperbolic cosecant of a number, in radians.

What is the syntax for ACSCH?

The syntax is ACSCH(number). Required and optional parameters are listed at the top of this guide.

Can Quadratic AI help with ACSCH?

Yes. Quadratic AI can write a ACSCH formula, explain existing formula logic, or help debug broken references and unexpected results.

Quadratic AI

Struggling with formulas? Use Quadratic AI.

Spreadsheet formulas are powerful, but they get painful fast. A ACSCH formula can start simple, then turn into logic that is hard to understand, easy to break, and difficult to share with the rest of your team.

Quadratic AI helps you write formulas, explain formula logic, debug broken references, and move beyond formulas when advanced analysis needs Python, SQL, charts, or connected data.

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Why formulas slow teams down

  • Long formulas become hard to read, understand, and trust.
  • Formula logic breaks when rows, columns, or assumptions change.
  • Manual updates make dashboards and reports fragile over time.
  • Complex formulas are difficult to explain, review, and share with teammates.
  • Advanced analysis quickly outgrows formula-only workflows.