Calculate daily protein and water requirements based on body weight, activity level, fitness goals, and climate. Includes meal distribution and hydration schedule.
Protein and water are the two most critical nutrients for health, performance, and body composition. Too little protein leads to muscle loss and poor recovery; too little water impairs performance, digestion, and cognitive function. The optimal amounts depend on your body weight, activity level, fitness goals, and environment. A target that works for a sedentary office day can be too low on a hard training day.
This calculator provides personalized daily protein and water targets. Enter your weight, activity level, and goal (muscle gain, maintenance, or fat loss), and it computes grams of protein per day, protein per meal, total water intake, and a hydration schedule. It accounts for exercise intensity, climate adjustments, and age-related needs.
Whether you're a competitive athlete looking to optimize recovery, someone starting a fitness journey, or simply want to know if you're drinking enough water, this tool gives you evidence-based targets you can immediately apply. The meal distribution table helps you plan protein timing across breakfast, lunch, dinner, and snacks.
Use this calculator when you want body-size and goal-based protein and hydration targets instead of a one-size-fits-all rule. It is useful for setting daily intake goals, splitting protein across meals, and adjusting water needs for exercise or hotter conditions. That makes it easier to turn broad nutrition advice into daily numbers you can actually follow.
Protein: sedentary = 0.8 g/kg, active = 1.2-1.6 g/kg, muscle gain = 1.6-2.2 g/kg, fat loss = 1.8-2.4 g/kg. Water: base = 30-35 mL/kg + 500 mL per hour of exercise + climate adjustment.
Result: 147-180g protein/day, 37-45g per meal, 3.2L water/day
At 180 lbs (82 kg) with active lifestyle and muscle gain goal, protein needs range from 1.8-2.2 g/kg (147-180g) split across 4 meals.
The RDA of 0.8 g/kg was established to prevent deficiency in sedentary adults — it's a minimum, not an optimum. Decades of research show higher intakes benefit body composition, recovery, satiety, and metabolic health. A 2018 meta-analysis found 1.6 g/kg maximizes muscle gain in conjunction with resistance training, with no additional benefit above ~2.2 g/kg.
For fat loss, protein needs increase because muscle preservation becomes critical during caloric deficit. Higher protein (1.8-2.4 g/kg) during dieting maintains lean mass, increases satiety, and raises the thermic effect of food.
Water makes up 60% of adult body weight and supports every physiological process. Even mild dehydration (1-2% body weight loss) impairs endurance, strength, and cognitive function. The "8×8 rule" (eight 8-oz glasses) is a rough guideline that happens to work for a 70 kg sedentary adult but doesn't scale to different body sizes or activity levels.
Research suggests 20-40g of protein per meal optimally stimulates muscle protein synthesis (MPS). Going above 40g in a single meal doesn't waste protein, but the extra amino acids are oxidized for energy rather than building muscle. Spreading intake across 3-5 meals with at least 20g each maximizes the MPS response over the day.
Research supports 1.6-2.2 g/kg for muscle gain, 1.2-1.6 g/kg for active individuals, and 0.8 g/kg minimum for sedentary adults. Higher intakes are safe for healthy kidneys.
Distributing protein evenly across meals (20-40g per meal) optimizes muscle protein synthesis. The "anabolic window" after exercise is real but wider than the 30-minute myth — aim for protein within 2-3 hours.
About 30-35 mL per kg of body weight as a baseline, plus 500-750 mL per hour of exercise. Thirst is a reliable guide, but active people often need deliberate hydration planning.
Yes — the mild diuretic effect of caffeine is more than offset by the fluid content. Coffee and tea count toward your daily total.
For healthy adults, up to 3.0 g/kg appears safe. People with kidney disease should consult a doctor. Excess protein is metabolized for energy, not stored as fat directly.
Yes — anabolic resistance increases with age. Adults over 65 benefit from 1.0-1.2 g/kg minimum, with 1.6+ g/kg for those doing resistance training.