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Calorie Science

TDEE Calculator — Free

Calculate your Total Daily Energy Expenditure and Basal Metabolic Rate using your choice of three evidence-based formulas — Mifflin-St Jeor (default), Harris-Benedict, or Katch-McArdle. Find your exact daily calorie target for fat loss, muscle gain, or maintenance.

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Calculate BMR & TDEE

Range: 15–100 years

Range: 30–300 kg · 1 decimal place

cmft·in

Enter your height in centimeters (e.g., 170 cm)

Range: 100–250 cm

Mifflin-St Jeor is pre-selected — validated as the most accurate formula for the widest range of adults in modern research.

*This calculator is for informational purposes only. Please consult a healthcare professional before making any health decisions. See our medical disclaimer for more information.

Calculations are powered by the Mifflin-St Jeor Equation, the clinical standard in modern metabolic and nutritional science.

What is TDEE?

TDEE (Total Daily Energy Expenditure) is the total number of calories your body burns in 24 hours, including basal metabolism, digestion and all physical activity. For most adults it ranges from 1,600 to 3,200 kcal depending on weight, height, age and activity level. Eating below your TDEE creates the calorie deficit needed for fat loss; eating above it leads to weight gain. Your TDEE is the single most important number in any weight loss or weight gain plan.

What is BMR (Basal Metabolic Rate)?

Your Basal Metabolic Rate (BMR) is the absolute minimum number of calories your body requires to perform basic, life-sustaining functions while completely at rest. Imagine lying in bed all day without moving a single muscle—your body still needs energy to keep your heart beating, lungs breathing, cells regenerating, and brain functioning. That energy requirement is your BMR.

For the average person, BMR accounts for roughly 60% to 70% of their total daily energy expenditure. It is heavily influenced by factors such as age, gender, genetics, and most importantly, lean muscle mass. Because muscle tissue is metabolically active, individuals with higher muscle mass naturally have a higher BMR, meaning they burn more calories even while resting. Modern calculations typically utilize the Mifflin-St Jeor equation to determine this baseline, which aligns with WHO physical activity guidelines for establishing total daily energy requirements.

TDEE Activity Multiplier Clinical Reference Table

Activity LevelMultiplierTDEE FormulaExample Profile
Sedentary (little or no exercise)1.2×BMR × 1.2Office worker, less than 5,000 steps/day
Lightly Active (light exercise 1–3 days/week)1.375×BMR × 1.375Casual walker, light gym twice weekly
Moderately Active (moderate exercise 3–5 days/week)1.55×BMR × 1.55Standard gym-goer, recreational sport
Very Active (hard exercise 6–7 days/week)1.725×BMR × 1.725Daily intense training, manual labour job
Extremely Active (very hard exercise & physical job)1.9×BMR × 1.9Elite athlete, twice-daily training sessions
BMR equations: Mifflin-St Jeor (1990) · Harris-Benedict revised by Roza & Shizgal (1984). Activity multipliers adapted from McArdle, Katch & Katch, Exercise Physiology, 8th ed.

BMR vs TDEE: Understanding the Difference

BMR (Basal Metabolic Rate)

  • Represents calories burned at complete rest.
  • Does not account for any physical activity or digestion.
  • Acts as the absolute minimum calorie floor. Eating below this number is generally unsafe.

TDEE (Total Daily Energy)

  • Represents total calories burned in a 24-hour period.
  • Includes BMR, exercise, daily movement, and digestion.
  • Acts as your "maintenance" target. This is the number you use to calculate deficits or surpluses.

Adjusting Your Calorie Intake Based on TDEE

Fat Loss

The Caloric Deficit

To lose weight, subtract 250 to 500 calories from your TDEE. This creates a sustainable deficit that promotes fat loss while preserving muscle mass and energy levels.

Maintenance

The Sweet Spot

To maintain your current physique, consume exactly your TDEE. This is ideal for athletes focusing purely on performance or individuals taking a diet break.

Muscle Gain

The Caloric Surplus

To build muscle, add 200 to 400 calories to your TDEE. This slight surplus provides the extra energy required to synthesize new muscle tissue without excessive fat gain.

Calculating an Accurate TDEE for Sedentary Desk Workers

Your Total Daily Energy Expenditure (TDEE) represents your body in motion over a 24-hour period. For sedentary desk workers, calculating TDEE requires careful precision because Non-Exercise Activity Thermogenesis (NEAT)—the calories burned through daily incidental movement—is significantly lower than for active professionals.

It is a common pitfall to overestimate activity multipliers. Even if a desk worker exercises intensely for 45 minutes daily, they are largely stationary for the remaining 23 hours. TDEE comprises four main components that must be balanced accurately for office-bound individuals:

  • BMR (Basal Metabolic Rate): The baseline energy required for survival (often making up over 70% of TDEE for sedentary workers).
  • NEAT (Non-Exercise Activity Thermogenesis): Reduced significantly by sitting, requiring conscious effort like standing desks or short walking breaks to increase.
  • TEF (Thermic Effect of Food): The energy your body uses to digest, absorb, and process the food you eat (10%).
  • EAT (Exercise Activity Thermogenesis): Structured workout calories, which should be logged conservatively.

Mifflin-St Jeor vs. Harris-Benedict Formulas

Our calculator offers three evidence-based BMR equations — Mifflin-St Jeor, Harris-Benedict and Katch-McArdle. The two most widely used in clinical and fitness settings are compared below; understanding their differences helps you select the most accurate baseline for your goals.

Mifflin-St Jeor (1990)

The default and most modern equation. Developed in 1990, it accounts for modern lifestyle changes and body compositions.

  • • Generally considered the most accurate for the average population.
  • • Endorsed by the Academy of Nutrition and Dietetics (formerly the American Dietetic Association).
  • • Less likely to overestimate caloric needs compared to older formulas.

Harris-Benedict (1919, revised 1984)

The classic equation. Originally published in 1919 and revised in 1984, it remains widely used by many dietitians and fitness professionals.

  • • Tends to slightly overestimate BMR (by about 5%) for modern, sedentary populations.
  • • A reliable secondary reference used by many dietitians and fitness apps — choose it to match a specific coach or platform that uses Harris-Benedict.
  • • A reliable secondary reference point.

Tailoring a BMR Calculator for Women Over 40 and Lifestyle Shifts

As women reach their 40s and progress toward perimenopause, hormonal fluctuations—specifically drops in estrogen—can influence how energy is metabolized and where fat is stored. Furthermore, the natural decline in lean muscle mass (sarcopenia) leads to a subtle but progressive drop in BMR.

Standard calculators rely on formulas that may overestimate calorie needs for this demographic if muscle loss isn't accounted for through regular resistance training. A well-tailored approach recognizes that preserving muscle mass becomes the critical lever for keeping metabolic rate robust during lifestyle shifts.

TDEE Calculator for Night Shift Workers and Irregular Schedules

Circadian rhythm disruptions experienced by night shift workers can measurably impact digestion, hormone regulation, and overall metabolic efficiency. Cortisol and insulin sensitivity often fluctuate inversely to traditional daytime hours, leading to unique metabolic demands.

When using a TDEE calculator on a shift schedule, consistency in tracking the 24-hour cycle is vital. While total energy expenditure might not drastically alter mathematically, the timing of macronutrient intake and prioritization of sleep quality become the determining factors in whether those calories are efficiently burned or stored.

TDEE Calculator for Intermittent Fasting 16:8 Protocol

Intermittent fasting (like the popular 16:8 method) restricts the eating window but does not inherently change your Total Daily Energy Expenditure. Fasting is a nutrient-timing tool, whereas TDEE determines the caloric budget you must fit within that 8-hour window to see results.

By understanding your precise TDEE, you can prevent the common mistake of overeating during the feeding window. It also ensures you construct meals with adequate protein and fats to sustain energy and protect muscle tissue through the 16-hour fasting phase.

BMR & TDEE Clinical Limitations

  • All TDEE equations (Mifflin-St Jeor, Harris-Benedict, Katch-McArdle) produce estimates within a ±10–15% margin of error relative to laboratory-measured metabolic rate; Mifflin-St Jeor falls within ±10% for approximately 82% of adults
  • Activity multipliers are self-reported approximations — most individuals underestimate sedentary time and overestimate exercise intensity
  • Hormonal variables (thyroid function, cortisol, estrogen cycles) significantly impact metabolic rate but are not captured in static equations
  • TDEE drops measurably during sustained caloric restriction as the body adapts metabolic rate downward — static calculations do not account for this adaptation
  • Individuals with conditions such as hypothyroidism, PCOS, or Cushing's syndrome will have clinically inaccurate TDEE outputs without physician-adjusted inputs

TDEE: Health & Longevity Implications

Optimising your TDEE result is directly connected to the following biological and longevity markers:

Cardiovascular StrainChronically consuming calories significantly above your TDEE leads to progressive adipose tissue accumulation, increasing cardiac workload and elevating resting blood pressure over time.
Metabolic FlexibilityAligning calorie intake close to your TDEE preserves the body's ability to efficiently oxidise both dietary fat and carbohydrate, improving energy stability throughout the day.
Insulin SensitivitySustained calorie surpluses — particularly from refined carbohydrates — drive repeated insulin spikes that progressively desensitise muscle and liver cells, increasing Type 2 diabetes risk.
Hormonal BalanceTDEE deficits exceeding 25% of maintenance calories suppress leptin and thyroid hormones, triggering metabolic adaptation that can persist for months after returning to maintenance eating.

Safe Execution Protocol: TDEE Next Steps

Before acting on your results, follow these expert-validated guidelines to protect metabolic health and long-term progress:

  • Never reduce daily intake below your BMR — doing so forces the body into a catabolic state, degrading lean muscle and suppressing metabolic rate.
  • Apply your TDEE result as a starting estimate, then adjust by ±100–200 kcal based on 2-week real-world weight change data.
  • Night shift workers should recalculate TDEE every 4–6 weeks as circadian rhythm recovery alters activity multipliers.
  • A conservative calorie deficit of 250–500 kcal below your TDEE supports 0.5–1 lb/week fat loss while preserving lean mass.

Use the clinical routing dashboard below to execute these steps safely with verified professional resources.

CDC Activity Measurement Guide

1. Dynamic Energy Intake Tracking

Monitor your variable daily energy expenditure and dynamically adapt your caloric intake using precision tracking systems.

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U.S. Dietary Guidelines

2. Metabolic Diet Optimization

Access structured nutritional programming designed to match your specific maintenance thresholds and metabolic demands.

Explore Metabolic Diets
ACSM Certified Pros

3. Personal Metabolic Supervision

Work with certified professionals to accurately interpret your basal rates and design a personally supervised protocol.

Find Metabolic Supervision

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