Time of Death Calculator Using Temperature


Time of Death & Algor Mortis Calculator

Estimate Post-Mortem Interval (PMI)



The internal temperature of the deceased, typically measured rectally.


The temperature of the surrounding environment (e.g., room, outdoors).


Select the unit for all temperature inputs.

Estimated Time Since Death (PMI)

Approximate Hours Elapsed

Temperature Loss:

Cooling Rate Assumption:

Body Cooling Curve (Algor Mortis)

Chart showing the estimated exponential decline of body temperature over time towards ambient temperature.

Cooling Rate Estimation Table


Hours Since Death Estimated Body Temperature
This table provides a generalized estimate of body temperature decline under the calculator’s current settings. It is for illustrative purposes only.

What is Calculating Time of Death Using Temperature?

Calculating time of death using temperature is a fundamental forensic method used to estimate the Post-Mortem Interval (PMI), which is the time that has elapsed since a person has died. This process relies on the principle of Algor Mortis (Latin for “cold death”), the natural cooling of the body after death. When a person dies, their body’s internal thermoregulation ceases, and it begins to lose heat to the surrounding environment through processes like conduction, convection, and radiation until it reaches ambient temperature.

This method is most accurate in the first 24 to 48 hours after death. Forensic investigators measure the body’s core temperature (usually rectally) and the temperature of the environment where the body was found. By using established formulas, such as the Glaister equation, they can work backward to estimate when the body was at a normal living temperature. While it’s a critical tool, it is important to understand that this is an estimation, not an exact science, as many variables can influence the rate of cooling. For more detailed analysis, consider reading about the livor mortis stages.

The Formula for Calculating Time of Death (Glaister Equation)

The most common and simplified formula used for an initial estimation is the Glaister equation. It provides a linear approximation of the cooling rate. Although body cooling is technically an exponential curve, this formula serves as a valuable field estimate.

The formula is generally expressed as:

Time Since Death (in hours) = (Normal Body Temperature – Measured Rectal Temperature) / Cooling Rate per Hour

The standard values used in this calculation depend on the temperature unit:

  • For Fahrenheit: Time (hrs) = (98.6°F – Rectal Temp) / 1.5°F per hour
  • For Celsius: Time (hrs) = (37.0°C – Rectal Temp) / 0.83°C per hour

It’s crucial to recognize that the cooling rate (1.5°F or 0.83°C) is an average and is the most variable part of the equation. Our forensic pathology tools guide provides more context on this.

Variables Table

Key variables in the time of death calculation.
Variable Meaning Unit (Auto-Inferred) Typical Range
Normal Body Temp The assumed core body temperature at the time of death. °F or °C 98.6°F / 37°C
Measured Rectal Temp The actual core temperature of the body when found. °F or °C Ambient to Normal
Cooling Rate The estimated rate at which a body loses heat per hour. Degrees/hour ~1.4-1.5°F / ~0.78-0.83°C
Ambient Temp The temperature of the environment surrounding the body. °F or °C Varies

Practical Examples

Example 1: Indoor Discovery

  • Inputs:
    • Measured Rectal Temperature: 86.6°F
    • Ambient Temperature: 70°F
    • Units: Fahrenheit
  • Calculation:
    • Temperature Loss: 98.6°F – 86.6°F = 12.0°F
    • Time Since Death: 12.0°F / 1.5°F per hour = 8 hours
  • Result: The estimated time of death was approximately 8 hours prior to the body’s discovery.

Example 2: Colder Environment (Celsius)

  • Inputs:
    • Measured Rectal Temperature: 29°C
    • Ambient Temperature: 10°C
    • Units: Celsius
  • Calculation:
    • Temperature Loss: 37°C – 29°C = 8°C
    • Time Since Death: 8°C / 0.83°C per hour ≈ 9.6 hours
  • Result: The estimated post-mortem interval is approximately 9.6 hours. Exploring the rigor mortis timeline can help corroborate this finding.

How to Use This Time of Death Calculator

Follow these steps to get an estimate of the post-mortem interval:

  1. Select Temperature Unit: First, choose whether you are working with Fahrenheit (°F) or Celsius (°C) from the dropdown menu. All your inputs should use this unit.
  2. Enter Body Temperature: In the ‘Body Temperature (Rectal)’ field, input the core temperature of the deceased as measured at the scene.
  3. Enter Ambient Temperature: In the ‘Ambient Temperature’ field, input the temperature of the environment where the body was found. While this doesn’t change the basic Glaister formula, it is critical for context and more advanced calculations.
  4. Calculate and Review: The calculator automatically updates as you type. The primary result is the estimated hours since death. Review the intermediate values for temperature loss and the assumed cooling rate.
  5. Interpret the Results: The result is an estimate. Refer to the ‘Key Factors’ section below to understand what might alter the true time of death. The cooling curve chart provides a visual representation of the process, a topic further discussed in our article on algor mortis explained.

Key Factors That Affect Calculating Time of Death

The standard cooling rate of 1.5°F/hr is a guideline and can be significantly altered by numerous factors. Understanding these is critical for accurate forensic analysis.

  1. Ambient Temperature: This is the most significant factor. A larger difference between the body and its environment leads to a faster cooling rate. A body in a snowbank will cool much faster than one in a warm room.
  2. Clothing and Coverings: Layers of clothing or blankets act as insulation, dramatically slowing down heat loss. A nude body will cool much faster than a clothed one.
  3. Body Mass and Size (BMI): Individuals with a higher body fat percentage and larger mass will cool more slowly, as fat provides insulation and a larger body has a smaller surface-area-to-volume ratio. Infants and elderly individuals tend to cool faster.
  4. Air Movement and Humidity: A body exposed to wind or drafts will cool faster due to increased convection. High humidity can slow cooling by reducing evaporation.
  5. Immersion in Water: Water is a much better conductor of heat than air. A body submerged in water will cool approximately twice as fast as a body in the air of the same temperature.
  6. Initial Body Temperature: The formula assumes a normal temperature of 98.6°F (37°C). If the person had a high fever (hyperthermia) or was suffering from hypothermia at the time of death, the starting point is different, which will skew the calculation.

Frequently Asked Questions (FAQ)

1. How accurate is calculating time of death with temperature?
It is an estimate, not an exact measurement. Its accuracy is highest within the first 12-24 hours and is heavily dependent on accounting for the environmental and physical factors listed above. It is often used in conjunction with other methods like livor mortis and rigor mortis analysis.
2. Why is rectal temperature used?
Rectal temperature is used because it provides a measurement of the body’s core temperature, which is less affected by immediate changes in the ambient environment compared to skin temperature.
3. What happens if the body temperature is higher than normal?
If the measured temperature is above 98.6°F / 37°C, it could indicate the death was very recent (within the first hour, before cooling began), or that the person had a fever at the time of death. The calculator will indicate a very low or zero PMI.
4. Does the formula work if the body has reached ambient temperature?
No. Once the body temperature equals the ambient temperature, algor mortis is complete. This method can no longer be used to determine PMI, and other methods, such as forensic entomology, must be employed.
5. How do I change the temperature units?
Use the “Temperature Unit” dropdown menu in the calculator. It will automatically adjust the formula and labels for either Fahrenheit (°F) or Celsius (°C).
6. What is the ‘temperature plateau’?
In some cases, the core body temperature may not drop for the first few hours after death. This ‘plateau’ phase can last 1-3 hours and can affect the accuracy of linear calculations. The calculator does not account for this variable phenomenon.
7. Can this calculator be used for legal or official forensic reports?
No. This calculator is for educational and illustrative purposes only. Official forensic determinations must be made by a qualified medical examiner or pathologist who can account for all contributing factors.
8. What is the Glaister equation?
The Glaister equation is the simple linear formula used in this calculator to provide a basic estimate of the time since death based on an average rate of body cooling. It is a well-known but highly simplified model.

Related Tools and Internal Resources

For a complete forensic analysis, it is essential to consider other post-mortem changes. Explore our other calculators and articles for a more comprehensive understanding:

© 2026 Forensic Calculators Inc. For educational purposes only.


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