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JEE Main 2026 Preparation: Question Papers, Solutions, Mock Tests & Strategy Unacademy » JEE Study Material » Mathematics » Clayey Hamilton Theorem
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Clayey Hamilton Theorem

A square matrix will fulfil its own characteristic polynomial equation, according to the Cayley Hamilton theorem. The determinant of a matrix is connected with a characteristic polynomial, and the eigenvalues of the matrix are the roots of this polynomial. We will study more about the Cayley Hamilton theorem, its formulation, proof, and examples in this article.

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Arthur Cayley and William Rowan Hamilton, two mathematicians, presented the Cayley Hamilton Theorem in 1858. All real and complex square matrices will fulfill their own characteristic polynomial equation, according to the Cayley Hamilton Theorem. This means that if a square matrix is translated into a polynomial, the polynomial will be zero. The Cayley Hamilton Theorem is a key statement in advanced linear algebra that helps to simplify linear transformations.

Only square matrices satisfy the Cayley–Hamilton theorem. A square matrix is a matrix that has an equal number of horizontal rows and vertical columns and can be represented using the order m x m. Square matrices are a completely separate type of matrices; they are used to build many other ideas such as orthogonal matrices, symmetric and skew-symmetric matrices, and so on. The Cayley – Hamilton theorem is an example of such a theorem.

Theorem

The theorem claims that when a square matrix presides over a commutative circle, such as the complex and real fields, its characteristic equation is satisfied. This theorem revolutionized the use of square matrices to solve problems.

This theorem can be expressed as f(x) = determinant (xIa – B), where B is the square matrix of order an x a and Ia is B’s identity matrix. The characteristic polynomial of the square matrix is (xIa – B). ‘x’ is only a placeholder for a variable. Because we’re working with linear polynomials, the determinant becomes an nth order monic equation in x, and the polynomial is f(x).

In a linear algebraic system, the characteristic polynomial of any square matrix is an invariant polynomial under matrix similarity. Eigenvalues are the roots of a characteristic polynomial. The determinant and the trace of the matrix are among its coefficients.

The Cayley–Hamilton theorem asserts that when the matrix B is substituted for x in a polynomial, f(x) = det (xIn – B), zero matrices arise, such as: p(B) = 0.

A ‘k x k’ matrix B is solved by the characteristic polynomial det (tI – B), which is a monic polynomial of degree n. By recurrent matrix multiplication, the powers of B acquired by substituting powers of x are calculated; the constant term of  p(x) gives a multiple of the power B0, where the power is defined as an identity matrix.

For example:

 Assume B is a 3×3. Square matrix. As a result, the Cayley-Hamilton Theorem’s characteristic equation would be:

Theorem Formula of Cayley Hamilton

When it comes to doing complex computations quickly and accurately, the Cayley Hamilton theorem formula comes in handy. It can also be used to calculate a matrix’s inverse. The following is the formula:

Assume that A is the characteristic polynomial of a n × n  square matrix.A Given like

How to verify Cayley Hamilton theorem

The Cayley Hamilton Theorem can be proved using a number of different approaches in pure mathematics. The simplest technique, though, is to use replacement.

Proof of this theorem given below:

For higher order square matrices, the Cayley Hamilton theorem can also be proved.

Example of Cayley Hamilton

Cayley Hamilton theorem uses

The Cayley Hamilton Theorem is an essential notion in pure mathematics that is commonly employed in the proofs of numerous theorems. The following are some of the most important uses of this theorem:

  • Because it lowers calculations, the Cayley Hamilton Theorem can be used to compute the inverse of square matrices. It can also be used to find the values of matrices that have been raised to a big exponent.

  • The Cayley Hamilton Theorem is used to define key concepts in control theory, such as linear systems’ controllability.

  • Nakayama’s lemma may be proved using a generalization of the Cayley Hamilton Theorem in commutative algebra.

  • The Cayley Hamilton Theorem can be used to prove Jacobson’s Theorem.

Conclusion

We study in this article, The Cayley-Hamilton theorem states that when a square matrix’s characteristic polynomial is translated into a polynomial in the matrix itself, it is identically equivalent to zero. A square matrix, in other words, fulfills its own characteristic equation.  Because it lowers calculations, the Cayley Hamilton Theorem can be used to compute the inverse of square matrices. It can also be used to find the values of matrices that have been raised to a big exponent.

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Frequently Asked Questions

Get answers to the most common queries related to the JEE Examination Preparation.

What is the best way to prove the Cayley Hamilton Theorem?

Ans. The Cayley Hamilton theorem can be proved using a number of different methods. The simplest option, however, is...Read full

What are the Cayley Hamilton Theorem's Applications?

Ans. The Cayley Hamilton theorem is often used in pure mathematics to prove theorems like Jacobson’s Theorem. ...Read full

What Is the Cayley Hamilton Theorem and How do we apply It?

Ans. The Cayley Hamilton Theorem can be used to find the inverse of square matrices since it simplifies calculations...Read full

Is it always true that the Cayley Hamilton theorem is correct?

Ans. No, Cayley-converse Hamilton’s is false for n...Read full

The Cayley Hamilton theorem is satisfied by which of the following matrices?

Ans. Only square matrices satisfy Caley Hamilton Theorem.

Ans. The Cayley Hamilton theorem can be proved using a number of different methods. The simplest option, however, is to use the substitution method.

Ans. The Cayley Hamilton theorem is often used in pure mathematics to prove theorems like Jacobson’s Theorem. It’s also used in engineering to describe specific control systems.

Ans. The Cayley Hamilton Theorem can be used to find the inverse of square matrices since it simplifies calculations. It can also be used to determine the values of matrices with a large exponent.

Ans. No, Cayley-converse Hamilton’s is false for nn matrices with n>1; in particular, it fails for  2×2  matrices.

Ans. Only square matrices satisfy Caley Hamilton Theorem.

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