Calculating Weight to Add to Bcd

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BCD Weight Calculator: Calculate Added Weight Precisely :root { –primary-color: #004a99; –success-color: #28a745; –background-color: #f8f9fa; –text-color: #333; –border-color: #ddd; –card-bg: #ffffff; –shadow: 0 2px 10px rgba(0,0,0,0.1); } body { font-family: 'Segoe UI', Tahoma, Geneva, Verdana, sans-serif; background-color: var(–background-color); color: var(–text-color); line-height: 1.6; margin: 0; padding: 0; display: flex; flex-direction: column; align-items: center; min-height: 100vh; } .container { width: 100%; max-width: 980px; margin: 20px 0; padding: 20px; background-color: var(–card-bg); box-shadow: var(–shadow); border-radius: 8px; box-sizing: border-box; } header { background-color: var(–primary-color); color: white; padding: 20px 0; text-align: center; width: 100%; margin-bottom: 20px; } header h1 { margin: 0; font-size: 2.5em; } main { width: 100%; display: flex; flex-direction: column; align-items: center; } .loan-calc-container { background-color: var(–card-bg); padding: 30px; 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BCD Weight Calculator

Optimize Your Dive Trim and Buoyancy

Calculate Weight for Your BCD

This calculator helps you determine the amount of weight to add to your BCD (Buoyancy Control Device) to achieve neutral buoyancy at a specific depth. Proper weighting is crucial for efficient diving, conserving air, and maintaining control.

Your estimated weight underwater, accounting for your gear and exposure suit buoyancy.
Neutral (0 kg) -0.5 kg (Slightly Positive) -1.0 kg (Moderately Positive) 0.5 kg (Slightly Negative) 1.0 kg (Moderately Negative) Desired buoyancy at your typical dive depth. Neutral is ideal for most divers.
Maximum weight your BCD can hold. Ensure you don't exceed this.
Optional: Amount you *want* to adjust your current weight by. Leave blank if not needed.

Your BCD Weighting Results

Recommended Weight to Add This is the total weight you should aim for in your BCD pockets.
Total Target Underwater Weight
Current Weight Balance
Net Weight Change Required
Weight Adjustment Needed (Adjusted) This accounts for your desired weight adjustment, if any.

Formula: Recommended Weight to Add = Target Buoyancy + Current Underwater Weight + Desired Weight Adjustment. If this value exceeds BCD capacity, adjust as needed.

Weighting Balance Visualization

Comparison of current vs. target underwater weight and adjustment needed.

Weighting Parameters Summary

Parameter Value Unit
Current Underwater Weight kg
Target Buoyancy kg
BCD Capacity kg
Desired Weight Adjustment kg
Recommended Weight to Add kg
Total Target Underwater Weight kg

What is BCD Weighting?

What is BCD Weighting?

BCD weighting refers to the process of adding weight, typically using lead or steel weights secured in pockets on your Buoyancy Control Device (BCD), to counteract the natural buoyancy of your body, exposure suit, and equipment. The primary goal of proper BCD weighting is to achieve neutral buoyancy underwater. Neutral buoyancy means you neither sink nor float uncontrollably. Instead, you can hover effortlessly at any depth without expending energy to stay at a particular level. This is fundamental for safe, efficient, and enjoyable scuba diving, allowing divers to maintain control, conserve air, and minimize disturbance to the underwater environment.

Who should use it: All scuba divers, from beginners learning buoyancy control to experienced divers fine-tuning their trim and efficiency, benefit from understanding and mastering BCD weighting. Divers using thicker wetsuits or drysuits, carrying heavier gear, or diving in different water densities (fresh vs. salt) will need to adjust their weighting accordingly. Proper weighting also significantly aids in proper trim – the ability to maintain a horizontal position in the water column.

Common misconceptions: A frequent misconception is that more weight is always better for descending. In reality, over-weighting is dangerous, leading to difficulty maintaining neutral buoyancy, wasted energy trying to stay up, and potential entanglement risks. Another myth is that weighting is a one-time setup; however, factors like changes in exposure suits, diving conditions, or personal body composition can necessitate re-evaluation and adjustment of your weighting system. Many divers also believe their BCD alone provides sufficient weighting, overlooking the crucial role of added weights for achieving true neutral buoyancy.

BCD Weighting Formula and Mathematical Explanation

The calculation for determining the weight to add to your BCD revolves around achieving a state of neutral buoyancy. Neutral buoyancy occurs when the total buoyant force acting on an object equals its weight. In diving terms, this means the combined buoyancy from your body, equipment, and the air in your BCD equals the downward force of gravity acting on your total mass, plus any added weight.

The core principle is to balance the upward forces (buoyancy) with downward forces (weight). We start with your baseline underwater weight (which includes the negative buoyancy of your gear and body, offset by the positive buoyancy of your exposure suit and any air in your BCD) and adjust it to achieve the desired state.

The Primary Formula:

Recommended Weight to Add = Target Buoyancy + Current Underwater Weight + Desired Weight Adjustment

Let's break down the variables:

Variable Meaning Unit Typical Range
Current Underwater Weight Your estimated weight while submerged, considering your gear, exposure suit, and BCD inflation. This is often what you feel you weigh without effort. kg -5.0 to +10.0 (Negative values mean you are positively buoyant without added weight)
Target Buoyancy The desired buoyancy level at depth. Neutral buoyancy is 0 kg. Slightly positive (e.g., -0.5 kg) means you'd very slowly rise if you stopped finning. Slightly negative (e.g., +0.5 kg) means you'd very slowly sink. kg -1.5 to +1.5
Desired Weight Adjustment An optional input to fine-tune your weighting based on preference or specific conditions. Positive means adding more weight than calculated, negative means reducing it. kg -3.0 to +3.0
Recommended Weight to Add The final calculated amount of weight to place in your BCD pockets to achieve your target buoyancy, considering the optional adjustment. kg 0 to Max BCD Capacity
Total Target Underwater Weight The sum of your current underwater weight and the recommended weight to add (before desired adjustment). This represents the target "effective" weight in the water. kg Varies based on inputs
Net Weight Change Required The difference between your Total Target Underwater Weight and your Current Underwater Weight. This shows how much your overall weight needs to change. kg Varies based on inputs
Adjusted Weight to Add The final weight to add after factoring in the Desired Weight Adjustment. This is the practical amount to put in pockets. kg 0 to Max BCD Capacity
BCD Weight Pocket Capacity The maximum weight your BCD can safely hold. Crucial for avoiding over-weighting. kg Typically 10-20 kg

Derivation Steps:

  1. Determine Current Underwater Weight: Estimate how buoyant or heavy you feel with your standard gear (wetsuit/drysuit, tanks, regulators) but without added weight. This is your baseline.
  2. Define Target Buoyancy: Decide on your desired state at depth. For most divers, neutral buoyancy (0 kg) is the goal.
  3. Calculate Total Target Weight: The ideal total mass you want to counteract buoyancy with is Total Target Weight = Current Underwater Weight + Target Buoyancy. If your Current Underwater Weight is already positive (you sink easily), and your Target Buoyancy is 0, then your Total Target Weight is simply your Current Underwater Weight. If you are positively buoyant (you float), you need to add weight to reach this Total Target Weight.
  4. Factor in Desired Adjustment: If you want to intentionally be slightly more or less weighted than neutral for specific reasons (e.g., easier descents, less weight for comfort), add or subtract this value.
  5. Calculate Final Weight to Add: The practical amount to add is Recommended Weight to Add = Total Target Weight + Desired Weight Adjustment.
  6. Check Against BCD Capacity: Always ensure the Recommended Weight to Add does not exceed your BCD's weight pocket capacity. If it does, you may need a different weighting system (e.g., weight belt) or to re-evaluate your gear's buoyancy.

Practical Examples (Real-World Use Cases)

Example 1: The Beginner Diver

Sarah is a new diver preparing for her certification dives. She uses a 7mm wetsuit and feels slightly positively buoyant in the water when wearing her rental gear (tank, BCD, aluminum 80 cu ft tank). She estimates her Current Underwater Weight is approximately +3.0 kg (meaning she floats upwards slightly without effort). Her instructor emphasizes achieving neutral buoyancy, so her Target Buoyancy is 0 kg. Her rental BCD has a Weight Pocket Capacity of 10 kg. Sarah doesn't have any specific preferences for adjustments, so Desired Weight Adjustment is 0 kg.

  • Current Underwater Weight: +3.0 kg
  • Target Buoyancy: 0 kg
  • Desired Weight Adjustment: 0 kg
  • BCD Weight Pocket Capacity: 10 kg

Calculation:

  • Total Target Underwater Weight = 3.0 kg + 0 kg = 3.0 kg
  • Net Weight Change Required = 3.0 kg – 3.0 kg = 0 kg (This seems odd, but it means her *current* weight is already higher than needed for neutral buoyancy, so we need to *add* weight to reach the target total weight)
  • Recommended Weight to Add = 3.0 kg + 0 kg = 3.0 kg
  • Adjusted Weight to Add = 3.0 kg

Result Interpretation: Sarah needs to add approximately 3.0 kg of weight to her BCD pockets. This will bring her total effective weight in the water to 3.0 kg, perfectly counteracting her gear's buoyancy to achieve neutral buoyancy. This is well within her BCD's capacity.

Example 2: The Experienced Drysuit Diver

Mark is an experienced diver who has recently switched to a trilaminate drysuit for colder water diving. His drysuit is inherently more buoyant than his previous wetsuit. He estimates his Current Underwater Weight with his drysuit, steel tank, and other gear is about +8.0 kg. He prefers to be slightly negatively buoyant at depth for easier finning and to maintain a good position, so his Target Buoyancy is +1.0 kg. His BCD has a Weight Pocket Capacity of 16 kg. Mark also finds that carrying a bit less weight overall is more comfortable, so he decides on a Desired Weight Adjustment of -2.0 kg (meaning he wants to carry 2 kg less than what the calculation strictly requires for neutral + his preference).

  • Current Underwater Weight: +8.0 kg
  • Target Buoyancy: +1.0 kg
  • Desired Weight Adjustment: -2.0 kg
  • BCD Weight Pocket Capacity: 16 kg

Calculation:

  • Total Target Underwater Weight = 8.0 kg + 1.0 kg = 9.0 kg
  • Net Weight Change Required = 9.0 kg – 8.0 kg = +1.0 kg (He needs to add 1.0 kg to achieve neutral buoyancy + his preference)
  • Recommended Weight to Add (Initial) = 9.0 kg + (-2.0 kg) = 7.0 kg
  • Adjusted Weight to Add = 7.0 kg

Result Interpretation: Mark needs to add 7.0 kg of weight to his BCD pockets. This calculation already incorporates his preference for being slightly negatively buoyant (+1.0 kg target) and his desire to carry 2 kg less than strictly necessary for that preference. The total weight needed is 7.0 kg, which is comfortably within his BCD's 16 kg capacity. This calculation helps him find a balance between managing drysuit buoyancy and personal comfort.

How to Use This BCD Weight Calculator

Using the BCD Weight Calculator is straightforward and designed to help you achieve optimal buoyancy control for your dives. Follow these steps:

  1. Step 1: Input Current Underwater Weight: Estimate and enter the weight you feel you have underwater with all your standard diving gear (including your exposure suit, tank, regulators, etc.) but *without* any added lead weights in your BCD pockets. If you feel you float slightly, this value might be positive (e.g., +3.0 kg). If you feel you sink easily without weights, it might be negative (e.g., -2.0 kg).
  2. Step 2: Select Target Buoyancy: Choose your desired buoyancy state at typical dive depths. 'Neutral (0 kg)' is recommended for most divers. You can select slightly positive (to rise slowly) or slightly negative (to sink slowly) if you have specific preferences or training.
  3. Step 3: Enter BCD Weight Pocket Capacity: Input the maximum amount of weight your BCD's integrated weight pockets can safely hold. This is a critical safety limit.
  4. Step 4: (Optional) Desired Weight Adjustment: If you wish to deliberately add or remove weight compared to the calculated neutral/preferred state (e.g., for easier descent or to conserve air), enter that value here. A positive number means adding more weight; a negative number means using less.
  5. Step 5: Calculate: Click the "Calculate Weight" button. The calculator will instantly display your results.

How to Read Results:

  • Recommended Weight to Add: This is the primary figure – the total weight you should aim to have in your BCD pockets for the calculated setup.
  • Total Target Underwater Weight: This shows the total effective weight you should have underwater to achieve your Target Buoyancy, based on your current underwater weight.
  • Current Weight Balance: This indicates how buoyant or heavy you are currently *before* adding the calculated weight.
  • Net Weight Change Required: This shows the difference between your current balance and your target balance. Positive means you need to add weight, negative means you might have too much.
  • Adjusted Weight to Add: This is the final figure after your optional desired weight adjustment is applied. It represents the practical amount to put into your weight pockets.

Decision-Making Guidance:

Compare the Adjusted Weight to Add against your BCD Weight Pocket Capacity. If the calculated weight exceeds your BCD's capacity, you have two main options: reduce the target buoyancy further towards negative, or consider using a weight belt for the excess weight. Always prioritize safety and comfort. It's often better to be slightly underweight (and thus slightly positively buoyant) than significantly overweight.

Perform a buoyancy check in shallow water after adjusting your weights. Breathe normally and observe your buoyancy at the surface and at a few feet of depth. You should be able to float at the surface with your lungs full and sink slowly when your lungs are empty. At depth, you should hover neutrally.

Key Factors That Affect BCD Weighting Results

Achieving perfect buoyancy is a dynamic process influenced by several factors. Understanding these can help you fine-tune your weighting for different dive conditions:

  1. Exposure Suit Thickness and Material: Thicker wetsuits (e.g., 7mm vs. 3mm) and neoprene drysuits trap more air, increasing positive buoyancy. Trilaminate drysuits also require significant weighting due to trapped air volume. As suits age or compress, their buoyancy characteristics can change.
  2. Water Density: Saltwater is denser than freshwater. This means you experience more buoyant force in saltwater. Consequently, you'll need slightly less weight in saltwater than in freshwater to achieve the same level of buoyancy. A common rule of thumb is about 1-1.5 kg less weight in saltwater.
  3. Air in BCD and Exposure Suit: The amount of air you intentionally leave in your BCD or drysuit significantly impacts buoyancy. Over-inflating your BCD or trapping too much air in your drysuit will make you more buoyant, requiring more lead weight to compensate. Proper buoyancy control involves managing these air volumes.
  4. Cylinder Type and Air Consumption: Aluminum tanks are naturally negatively buoyant, while steel tanks can be neutral or slightly positively buoyant depending on their size and alloy. As you consume air from your tank during a dive, its overall weight decreases, making you slightly more buoyant. This change needs to be accounted for, especially on longer dives.
  5. Exposure to Cold: While not a direct weight factor, experiencing cold can cause divers to add extra layers or use thicker suits, which increases their overall buoyancy. Additionally, cold can affect breathing patterns, potentially influencing buoyancy control.
  6. Depth: Air compresses at depth. This means the air in your BCD and drysuit occupies less volume, reducing your overall buoyancy. Therefore, you'll typically need more weight to remain neutrally buoyant at 30 meters than at 10 meters. This is why weighting is often calibrated for typical dive depths.
  7. Inflation/Deflation Techniques: How efficiently you manage air in your BCD and drysuit directly impacts buoyancy. For example, expelling air from your drysuit while descending is crucial to avoid a rapid, uncontrolled sink.
  8. Dive Planning and Purpose: For specific dives, like underwater photography where precise hovering is needed, divers might fine-tune their weighting for maximum stability. For recreational dives, a slightly positive or negative buoyancy might be acceptable depending on personal preference and conditions.

Frequently Asked Questions (FAQ)

Q1: How much weight do I need for scuba diving?

A: The amount of weight needed varies greatly depending on your body composition, exposure suit, gear, and the type of water (salt vs. fresh). This calculator helps determine a precise starting point based on your specific inputs. A general guideline for basic open water dives in saltwater with a 3-5mm wetsuit might be around 4-8 kg, but always adjust based on personal checks.

Q2: Should I use a weight belt or integrated BCD weights?

A: Both have pros and cons. Integrated BCD weights are convenient and distribute weight evenly. Weight belts can be easier to ditch in an emergency and may allow for carrying more weight if your BCD pockets have limitations. Many divers use a combination.

Q3: What happens if I am over-weighted?

A: Being over-weighted is dangerous. You'll struggle to stay neutral, constantly fighting to ascend, which wastes air and energy. In extreme cases, you might struggle to surface, making an emergency ascent difficult and risky.

Q4: What happens if I am under-weighted?

A: If you're under-weighted, you'll be positively buoyant. You'll float uncontrollably at the surface and may find it difficult to descend or stay down without constant finning, which again wastes air and energy. You might also struggle to maintain a stable position at depth.

Q5: How does depth affect the weight I need?

A: Air compresses with depth. This means the air in your BCD and drysuit takes up less space, reducing your overall buoyancy. Therefore, you generally need more weight to achieve neutral buoyancy at deeper depths compared to shallower ones. This calculator provides a baseline for your typical dive depth.

Q6: Can I use steel weights instead of lead weights?

A: Yes, steel weights are an alternative. Steel is denser than lead, meaning you need less volume of steel to achieve the same weight. Some divers prefer steel for its smaller size, while others prefer lead for its slightly higher density (meaning less weight needed for the same volume compared to aluminum, but lead is denser than steel).

Q7: How often should I check my BCD weighting?

A: It's good practice to check your weighting at the start of a dive season, after changing exposure suits or major gear, or if you notice a significant difference in buoyancy control. Your first dive after any changes should include a buoyancy check in shallow water.

Q8: My BCD pockets have a maximum capacity. What if I need more weight?

A: If the calculated weight exceeds your BCD's capacity, you should consider using a weight belt or harness system designed to carry additional weight. Alternatively, re-evaluate if you can achieve neutral buoyancy with less weight by managing your BCD and drysuit air volumes more effectively, or by accepting a slightly different buoyancy preference (e.g., slightly more positive).

© 2023 Your Dive Company. All rights reserved.

Disclaimer: This calculator provides an estimate. Always perform a buoyancy check before diving and consult with a certified dive instructor for personalized advice.

var chartInstance = null; // Global variable for chart instance function getInputValue(id) { var element = document.getElementById(id); if (element && element.value) { var value = parseFloat(element.value); if (!isNaN(value)) { return value; } } return null; } function setErrorMessage(id, message, isVisible) { var errorElement = document.getElementById(id); if (errorElement) { errorElement.innerText = message || "; errorElement.classList.toggle('visible', isVisible); } } function validateInputs() { var isValid = true; var currentWeight = getInputValue('currentWeight'); var weightPlateCapacity = getInputValue('weightPlateCapacity'); var desiredWeightAdjustment = getInputValue('desiredWeightAdjustment'); if (currentWeight === null) { setErrorMessage('currentWeightError', 'Please enter your current underwater weight.', true); isValid = false; } else { setErrorMessage('currentWeightError', ", false); } // No specific range for target buoyancy, it's a select setErrorMessage('targetBuoyancyError', ", false); if (weightPlateCapacity === null) { setErrorMessage('weightPlateCapacityError', 'Please enter your BCD\'s weight pocket capacity.', true); isValid = false; } else if (weightPlateCapacity < 0) { setErrorMessage('weightPlateCapacityError', 'Capacity cannot be negative.', true); isValid = false; } else { setErrorMessage('weightPlateCapacityError', '', false); } if (desiredWeightAdjustment !== null && desiredWeightAdjustment weightPlateCapacity * 2) { // Arbitrary upper limit for adjustment relevance setErrorMessage('desiredWeightAdjustmentError', 'Desired adjustment seems unusually high.', true); isValid = false; } else { setErrorMessage('desiredWeightAdjustmentError', ", false); } return isValid; } function updateTable(data) { document.getElementById('tableCurrentWeight').innerText = data.currentWeight !== null ? data.currentWeight.toFixed(1) : '–'; document.getElementById('tableTargetBuoyancy').innerText = data.targetBuoyancy !== null ? data.targetBuoyancy.toFixed(1) : '–'; document.getElementById('tableBcdCapacity').innerText = data.weightPlateCapacity !== null ? data.weightPlateCapacity.toFixed(1) : '–'; document.getElementById('tableDesiredAdjustment').innerText = data.desiredWeightAdjustment !== null ? data.desiredWeightAdjustment.toFixed(1) : '0.0'; document.getElementById('tableRecommendedToAdd').innerText = data.recommendedWeightToAdd !== null ? data.recommendedWeightToAdd.toFixed(1) : '–'; document.getElementById('tableTotalTargetWeight').innerText = data.totalTargetWeight !== null ? data.totalTargetWeight.toFixed(1) : '–'; } function updateChart(data) { var ctx = document.getElementById('bcdWeightChart').getContext('2d'); if (chartInstance) { chartInstance.destroy(); // Destroy previous chart instance } var labels = ['Current Underwater Weight', 'Total Target Underwater Weight', 'Adjusted Weight to Add']; var backgroundColors = [ 'rgba(255, 99, 132, 0.6)', // Current Weight (Red) 'rgba(54, 162, 235, 0.6)', // Total Target (Blue) 'rgba(75, 192, 192, 0.6)' // Adjusted to Add (Green) ]; var borderColors = [ 'rgba(255, 99, 132, 1)', 'rgba(54, 162, 235, 1)', 'rgba(75, 192, 192, 1)' ]; var currentWeightVal = data.currentWeight !== null ? data.currentWeight : 0; var totalTargetWeightVal = data.totalTargetWeight !== null ? data.totalTargetWeight : 0; var adjustedWeightToAddVal = data.adjustedWeightToAdd !== null ? data.adjustedWeightToAdd : 0; // Adjusting values for better visualization if they are negative var chartDataValues = [currentWeightVal, totalTargetWeightVal, adjustedWeightToAddVal]; // Base scale for chart – could be dynamic, but fixed for simplicity var maxAbsValue = Math.max(Math.abs(currentWeightVal), Math.abs(totalTargetWeightVal), Math.abs(adjustedWeightToAddVal), 5); // Ensure a minimum scale var scale = maxAbsValue * 1.2; // Add some padding chartInstance = new Chart(ctx, { type: 'bar', data: { labels: labels, datasets: [{ label: 'Weight (kg)', data: chartDataValues, backgroundColor: backgroundColors, borderColor: borderColors, borderWidth: 1 }] }, options: { responsive: true, maintainAspectRatio: true, scales: { y: { beginAtZero: false, // Allow negative values suggestedMin: -scale, suggestedMax: scale, title: { display: true, text: 'Weight (kg)' } } }, plugins: { legend: { position: 'top', }, title: { display: true, text: 'Weighting Comparison' } } } }); } function calculateBCDWeight() { if (!validateInputs()) { document.getElementById('recommendedWeightToAdd').innerText = '–'; document.getElementById('totalTargetWeight').innerText = '–'; document.getElementById('currentWeightBalance').innerText = '–'; document.getElementById('netWeightChangeRequired').innerText = '–'; document.getElementById('adjustedWeightToAdd').innerText = '–'; updateTable({ currentWeight: null, targetBuoyancy: null, weightPlateCapacity: null, desiredWeightAdjustment: null }); if (chartInstance) chartInstance.destroy(); return; } var currentWeight = getInputValue('currentWeight'); var targetBuoyancy = parseFloat(document.getElementById('targetBuoyancy').value); // Value from select var weightPlateCapacity = getInputValue('weightPlateCapacity'); var desiredWeightAdjustment = getInputValue('desiredWeightAdjustment'); // Handle cases where desiredWeightAdjustment might be empty if (desiredWeightAdjustment === null) { desiredWeightAdjustment = 0; } var totalTargetWeight = currentWeight + targetBuoyancy; var netWeightChangeRequired = totalTargetWeight – currentWeight; var recommendedWeightToAddRaw = totalTargetWeight + desiredWeightAdjustment; // Ensure the final weight to add doesn't go below zero (you can't *remove* weight beyond your current underwater state) // and doesn't exceed capacity in a way that's nonsensical. var adjustedWeightToAdd = Math.max(0, recommendedWeightToAddRaw); // Adjust if the target itself exceeds capacity significantly, and also factor in the desired adjustment // The goal is to get as close to the desired state as possible within capacity. var finalWeightToAdd = adjustedWeightToAdd; if (adjustedWeightToAdd > weightPlateCapacity) { finalWeightToAdd = weightPlateCapacity; // Inform the user implicitly by capping it, and var the chart/table show the discrepancy. setErrorMessage('weightPlateCapacityError', 'Calculated weight exceeds BCD capacity. Capped at capacity.', true); } else { setErrorMessage('weightPlateCapacityError', ", false); // Clear error if within capacity } document.getElementById('recommendedWeightToAdd').innerText = finalWeightToAdd.toFixed(1) + ' kg'; document.getElementById('totalTargetWeight').innerText = totalTargetWeight.toFixed(1) + ' kg'; document.getElementById('currentWeightBalance').innerText = currentWeight.toFixed(1) + ' kg'; document.getElementById('netWeightChangeRequired').innerText = netWeightChangeRequired.toFixed(1) + ' kg'; document.getElementById('adjustedWeightToAdd').innerText = finalWeightToAdd.toFixed(1) + ' kg'; var resultData = { currentWeight: currentWeight, targetBuoyancy: targetBuoyancy, weightPlateCapacity: weightPlateCapacity, desiredWeightAdjustment: desiredWeightAdjustment, recommendedWeightToAdd: finalWeightToAdd, // This is the capped value totalTargetWeight: totalTargetWeight, netWeightChangeRequired: netWeightChangeRequired, adjustedWeightToAdd: adjustedWeightToAdd // The value before capping }; updateTable(resultData); updateChart(resultData); } function resetBCDCalculator() { document.getElementById('currentWeight').value = '3.0'; document.getElementById('targetBuoyancy').value = '0'; document.getElementById('weightPlateCapacity').value = '10'; document.getElementById('desiredWeightAdjustment').value = "; // Clear optional field // Clear errors setErrorMessage('currentWeightError', ", false); setErrorMessage('targetBuoyancyError', ", false); setErrorMessage('weightPlateCapacityError', ", false); setErrorMessage('desiredWeightAdjustmentError', ", false); // Reset results and table/chart document.getElementById('recommendedWeightToAdd').innerText = '–'; document.getElementById('totalTargetWeight').innerText = '–'; document.getElementById('currentWeightBalance').innerText = '–'; document.getElementById('netWeightChangeRequired').innerText = '–'; document.getElementById('adjustedWeightToAdd').innerText = '–'; updateTable({ currentWeight: null, targetBuoyancy: null, weightPlateCapacity: null, desiredWeightAdjustment: null }); if (chartInstance) chartInstance.destroy(); } function copyResults() { var recommended = document.getElementById('recommendedWeightToAdd').innerText; var totalTarget = document.getElementById('totalTargetWeight').innerText; var currentBalance = document.getElementById('currentWeightBalance').innerText; var netChange = document.getElementById('netWeightChangeRequired').innerText; var adjusted = document.getElementById('adjustedWeightToAdd').innerText; var bcdCap = document.getElementById('tableBcdCapacity').innerText; var desiredAdj = document.getElementById('tableDesiredAdjustment').innerText; var textToCopy = "— BCD Weighting Results —\n\n"; textToCopy += "Recommended Weight to Add: " + recommended + "\n"; textToCopy += "Total Target Underwater Weight: " + totalTarget + "\n"; textToCopy += "Current Weight Balance: " + currentBalance + "\n"; textToCopy += "Net Weight Change Required: " + netChange + "\n"; textToCopy += "Adjusted Weight to Add: " + adjusted + "\n\n"; textToCopy += "— Key Assumptions —\n"; textToCopy += "BCD Weight Pocket Capacity: " + bcdCap + " kg\n"; textToCopy += "Desired Weight Adjustment: " + desiredAdj + " kg\n"; navigator.clipboard.writeText(textToCopy).then(function() { // Success feedback could be added here (e.g., temporary button text change) console.log('Results copied to clipboard!'); }, function(err) { console.error('Failed to copy results: ', err); // Fallback for browsers that don't support navigator.clipboard var textArea = document.createElement("textarea"); textArea.value = textToCopy; document.body.appendChild(textArea); textArea.select(); try { document.execCommand('copy'); alert('Results copied!'); } catch (e) { alert('Copying failed. Please copy manually.'); } document.body.removeChild(textArea); }); } // Initial calculation on page load with default values document.addEventListener('DOMContentLoaded', function() { calculateBCDWeight(); // Ensure chart rendering happens after the canvas element is available var chartContainer = document.getElementById('chartContainer'); if (chartContainer) { var canvas = document.getElementById('bcdWeightChart'); if (canvas) { var ctx = canvas.getContext('2d'); // Initial empty chart state if no data, or call updateChart immediately updateChart({ currentWeight: null, totalTargetWeight: null, adjustedWeightToAdd: null }); } } });

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