Root Test Calculator - Series Convergence Tool | Toolivaa

Root Test Calculator

📊 Series & Sequences 📈 Ratio Test Calculator ⚖️ Limit Comparison Test ∫ Integral Test

Root Test for Series Convergence

Determine convergence/divergence of infinite series using the nth root test with step-by-step solutions and limit calculations.

L = lim_n→∞ ⁿ√|aₙ|

Standard Root Test

Custom Series

Standard Series Forms

Series Type:

Parameter (r/a):

Parameter (p/n):

Root Test: If L < 1 converges, L > 1 diverges, L = 1 inconclusive

Geometric Series

∑ (1/2)ⁿ

L = 1/2, Converges

Harmonic-like

∑ 1/n²

L = 1, Inconclusive

Exponential

∑ n²/2ⁿ

L = 1/2, Converges

Root Test Result

L = 0.5

Divergence

L > 1

Inconclusive

L = 1

Convergence

L < 1

Series Analysis

aₙ = (1/2)ⁿ

L = lim ⁿ√|(1/2)ⁿ| = 0.5

Limit Visualization

As n → ∞, ⁿ√|aₙ| approaches the limit L

Test Details

Test Applied: Root Test (Cauchy Test)

Series Type: Geometric Series

Limit Calculation: L = lim ⁿ√|aₙ|

Convergence Status: Converges Absolutely

Rate of Convergence: Geometric (exponential)

The Root Test determines convergence by taking the nth root of the absolute value of terms and examining the limit as n approaches infinity.

What is the Root Test?

Root Test (Cauchy's Test) is a convergence test for infinite series that uses the nth root of absolute terms. It's particularly effective for series containing nth powers, exponentials, or factorial terms.

L = lim_n→∞ ⁿ√|aₙ|

Root Test Convergence Criteria

Converges Absolutely

L < 1

Series converges

Terms approach 0

Diverges

L > 1

Series diverges

Terms don't approach 0

Inconclusive

L = 1

Test fails

Use another test

Root Test Formulas and Applications

1. General Root Test Formula

L = lim_n→∞ |aₙ|^1/n

Where:

aₙ: nth term of the series
L: Limit of nth roots
Convergence: Determined by L value
Special case: For power series, gives radius of convergence

2. Common Series Results

Series Type	nth Term aₙ	ⁿ√\|aₙ\|	Limit L	Result
Geometric	rⁿ	\|r\|	\|r\|	Converges if \|r\| < 1
p-Series	1/nᵖ	1/nᵖ/ⁿ	1	Inconclusive
Exponential	nᵏ/rⁿ	nᵏ/ⁿ/\|r\|	1/\|r\|	Converges if \|r\| > 1
Factorial	n!/nⁿ	(n!)^{1/n}/n	1/e	Converges

Step-by-Step Root Test Procedure

Example: ∑ (1/2)ⁿ

Identify nth term: aₙ = (1/2)ⁿ
Take nth root: ⁿ√|aₙ| = ⁿ√|(1/2)ⁿ|
Simplify: ⁿ√(1/2)ⁿ = 1/2 (since ⁿ√rⁿ = r for r ≥ 0)
Calculate limit: L = lim_n→∞ (1/2) = 1/2
Compare L to 1: 1/2 < 1
Conclusion: Since L < 1, series converges absolutely

Example: ∑ n²/3ⁿ

Identify nth term: aₙ = n²/3ⁿ
Take nth root: ⁿ√|aₙ| = ⁿ√(n²/3ⁿ)
Separate: = (ⁿ√n²) × (ⁿ√(1/3ⁿ))
Simplify: = n^{2/n} × (1/3)
Calculate limits: lim n^{2/n} = 1, lim (1/3) = 1/3
Final limit: L = 1 × 1/3 = 1/3
Conclusion: Since 1/3 < 1, series converges

Comparison with Other Tests

Test	Best For	Formula	Inconclusive When	Advantages
Root Test	Terms with nth powers	ⁿ√\|aₙ\| → L	L = 1	Works when ratio test fails
Ratio Test	Factorials, exponentials	\|aₙ₊₁/aₙ\| → L	L = 1	Often easier to compute
Comparison Test	Similar to known series	Compare aₙ to bₙ	No suitable comparison	Intuitive, geometric reasoning
Integral Test	Positive decreasing terms	∫f(x)dx	Improper integral diverges	Gives exact error bounds

Special Cases and Limitations

When Root Test is Inconclusive (L = 1)

p-series: ∑ 1/nᵖ always gives L = 1
Alternating series: May need alternating series test
Slow convergence: Terms like 1/n ln n
Borderline cases: ∑ 1/n, ∑ 1/(n ln n)

When Root Test is Preferred

Power series: To find radius of convergence
Exponential terms: Series with terms like rⁿ
Factorial terms: Series with n! or combinations
When ratio test fails: Terms where ratio oscillates

Real-World Applications

Mathematics & Analysis

Power series: Determining radius of convergence
Taylor series: Analyzing remainder terms
Numerical analysis: Error estimation in approximations
Complex analysis: Analytic function properties

Engineering & Physics

Signal processing: Convergence of Fourier series
Quantum mechanics: Series solutions to differential equations
Control theory: Stability analysis of systems
Statistics: Convergence of probability series

Computer Science

Algorithm analysis: Convergence rates of iterative methods
Machine learning: Gradient descent convergence
Numerical methods: Series approximation accuracy
Cryptography: Probability convergence in algorithms

Related Calculators

📈 Ratio Test Calculator ∞ Series Convergence ⚡ Power Series 🔄 Sequence Limits

Frequently Asked Questions (FAQs)

Q: When should I use Root Test instead of Ratio Test?

A: Use Root Test when terms contain nth powers (like rⁿ) or when the Ratio Test gives L = 1. Root Test is often simpler for geometric-like series.

Q: What if I get L = 1 in Root Test?

A: When L = 1, the Root Test is inconclusive. Try other tests like Comparison Test, Integral Test, or Alternating Series Test.

Q: Can Root Test determine conditional convergence?

A: No, Root Test only determines absolute convergence. For conditional convergence, use the Alternating Series Test.

Q: How accurate is numerical Root Test calculation?

A: Numerical calculations are accurate for most practical purposes. For theoretical exactness, algebraic simplification is recommended.

Master series convergence with Toolivaa's free Root Test Calculator, and explore more convergence tests in our Series & Sequences Calculators collection.