Online Weight and Balance Calculator

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Online Aircraft Weight and Balance Calculator

Ensure your flight is safe and legal with accurate weight and balance calculations.

Aircraft Weight & Balance Calculator

Enter the empty weight of your aircraft.
Enter the CG location for the empty weight. Units (inches/cm) must match payload.

Payload Items

Name of the payload item.
Weight of the item. Units must be consistent (e.g., lbs/kg).
Distance from datum (arm). Units must match aircraft CG.
Name of the payload item.
Weight of the item. Units must be consistent (e.g., lbs/kg).
Distance from datum (arm). Units must match aircraft CG.

Calculation Results

Weight and CG Envelope

Weight and Balance Summary
Item Weight Arm (CG) Moment
Aircraft Empty Weight

What is an Online Aircraft Weight and Balance Calculator?

An **online aircraft weight and balance calculator** is a specialized digital tool designed to help pilots, aircraft owners, and aviation professionals determine if an aircraft is within its acceptable weight and center of gravity (CG) limits before flight. This is a critical safety procedure mandated by aviation authorities worldwide. The calculator takes various inputs such as the aircraft's empty weight and CG, along with the weight and position (arm) of all items being carried – including crew, passengers, baggage, and fuel – to calculate the total weight and the resulting CG of the aircraft.

Who should use it? Any individual operating or responsible for an aircraft, including private pilots, commercial airline pilots, flight instructors, aircraft maintenance personnel, and aircraft owners, should use an **online aircraft weight and balance calculator**. It's particularly vital for general aviation operations where pilots often perform these calculations themselves.

Common misconceptions about weight and balance include the belief that it's only important for large commercial aircraft (it's equally vital for small planes), that it's a complex, manual process only for seasoned professionals (modern calculators simplify it), or that slightly exceeding limits is acceptable if it feels stable (it's not; it can lead to control issues and aerodynamic instability).

Aircraft Weight and Balance Formula and Mathematical Explanation

The core principle of aircraft weight and balance calculation relies on the concept of moments. A moment is the product of an object's weight and its distance from a reference point called the datum. The datum is an arbitrary vertical plane from which all horizontal distances are measured. Aviation regulations require that an aircraft's total weight and its center of gravity (CG) must remain within specific limits to ensure safe flight characteristics. The CG represents the average location of the aircraft's weight.

The fundamental formulas are:

  • Moment = Weight × Arm
  • Total Weight = Sum of all individual weights
  • Total Moment = Sum of all individual moments
  • Center of Gravity (CG) = Total Moment / Total Weight

Here's a step-by-step derivation:

  1. Calculate the moment for each item: For the aircraft's empty weight, each piece of payload (crew, passengers, baggage, fuel), and any installed equipment, multiply its weight by its arm (distance from the datum).
  2. Sum all the weights: Add the empty weight of the aircraft to the weights of all payload items to find the total weight.
  3. Sum all the moments: Add up all the individual moments calculated in step 1 to find the total moment.
  4. Calculate the aircraft's CG: Divide the total moment by the total weight.
  5. Compare with limits: The calculated total weight and CG must fall within the aircraft's certified operating envelope (forward CG limit, aft CG limit, and maximum takeoff weight).

Variable Explanations

Variable Meaning Unit Typical Range
W_empty Aircraft Empty Weight lbs or kg Varies greatly by aircraft type (e.g., 1,000 – 50,000+ lbs)
CG_empty Aircraft Empty Weight CG (Arm) inches or cm Depends on datum; often between 60-100 inches for light aircraft
W_payload_i Weight of payload item 'i' (e.g., passenger, baggage) lbs or kg 100 – 300 lbs for passengers, 0 – 200+ lbs for baggage
Arm_payload_i Arm (CG) of payload item 'i' inches or cm Depends on datum and item location; e.g., 70-120 inches
Moment_i Moment of payload item 'i' in-lbs or kg-cm W_payload_i × Arm_payload_i
W_total Total Aircraft Weight lbs or kg Must be less than Maximum Takeoff Weight (MTOW)
Moment_total Total Aircraft Moment in-lbs or kg-cm Sum of all individual moments
CG_total Aircraft Center of Gravity (CG) inches or cm Must be between Forward CG Limit and Aft CG Limit
Datum Reference point for measurements N/A Usually a fixed point on the aircraft structure (e.g., firewall)
Forward CG Limit Minimum allowable CG location inches or cm Specified in Aircraft Flight Manual (AFM)
Aft CG Limit Maximum allowable CG location inches or cm Specified in Aircraft Flight Manual (AFM)
MTOW Maximum Takeoff Weight lbs or kg Specified in Aircraft Flight Manual (AFM)

Practical Examples (Real-World Use Cases)

Let's explore how an **online weight and balance calculator** is used in practice.

Example 1: A Simple Cross-Country Flight

Pilot Alice is planning a flight in her Cessna 172. She needs to calculate the weight and balance for her trip.

  • Aircraft Empty Weight: 1,450 lbs
  • Aircraft Empty Weight CG: 72.0 inches aft of datum
  • Pilot (Alice): 170 lbs at 78 inches
  • Passenger: 150 lbs at 85 inches
  • Baggage (compartment 1): 40 lbs at 95 inches
  • Fuel: 48 gallons (approx. 288 lbs) at 80 inches (assuming fuel tanks are at this arm)
  • Aircraft Limits: Max Takeoff Weight (MTOW) = 2,400 lbs, Forward CG Limit = 68.0 inches, Aft CG Limit = 99.0 inches

Using the calculator, Alice inputs these values. The intermediate calculations would show:

  • Empty Weight Moment: 1450 lbs * 72.0 in = 104,400 in-lbs
  • Pilot Moment: 170 lbs * 78.0 in = 13,260 in-lbs
  • Passenger Moment: 150 lbs * 85.0 in = 12,750 in-lbs
  • Baggage Moment: 40 lbs * 95.0 in = 3,800 in-lbs
  • Fuel Moment: 288 lbs * 80.0 in = 23,040 in-lbs

Results:

  • Total Weight: 1450 + 170 + 150 + 40 + 288 = 2,098 lbs
  • Total Moment: 104,400 + 13,260 + 12,750 + 3,800 + 23,040 = 157,250 in-lbs
  • Calculated CG: 157,250 in-lbs / 2,098 lbs = 75.0 inches

Interpretation: Alice's total weight (2,098 lbs) is below the MTOW (2,400 lbs). Her calculated CG (75.0 inches) is between the forward limit (68.0 inches) and the aft limit (99.0 inches). The flight is within weight and balance limits.

Example 2: Carrying Extra Baggage

For the same Cessna 172, pilot Bob wants to carry an additional 30 lbs of baggage in the rear compartment, which has an arm of 105 inches. He weighs 190 lbs and is seated at the pilot station (78 inches). His passenger weighs 160 lbs at 85 inches.

  • Aircraft Empty Weight: 1,450 lbs
  • Aircraft Empty Weight CG: 72.0 inches
  • Pilot Bob: 190 lbs at 78 inches
  • Passenger: 160 lbs at 85 inches
  • Original Baggage: 40 lbs at 95 inches
  • Additional Baggage: 30 lbs at 105 inches
  • Fuel: 288 lbs at 80 inches
  • Aircraft Limits: MTOW = 2,400 lbs, Forward CG Limit = 68.0 inches, Aft CG Limit = 99.0 inches

Results:

  • Total Weight: 1450 + 190 + 160 + 40 + 30 + 288 = 2,158 lbs
  • Total Moment (new calculation): (1450*72) + (190*78) + (160*85) + (40*95) + (30*105) + (288*80) = 104,400 + 14,820 + 13,600 + 3,800 + 3,150 + 23,040 = 162,810 in-lbs
  • Calculated CG: 162,810 in-lbs / 2,158 lbs = 75.4 inches

Interpretation: Bob's total weight (2,158 lbs) is still below MTOW. However, the calculated CG (75.4 inches) is still within the limits. If he had added more weight further aft, he could have exceeded the aft CG limit, making the flight unsafe.

How to Use This Online Weight and Balance Calculator

Using our **online aircraft weight and balance calculator** is straightforward and designed for ease of use:

  1. Input Aircraft Empty Weight and CG: Locate these figures in your aircraft's Weight and Balance manual or Aircraft Flight Manual (AFM). These are usually found on the 'Aircraft Data' page.
  2. Add Payload Items: Enter each item that will be carried onboard. This includes pilots, passengers, baggage, and even fuel. For each item:
    • Enter the Item Name (optional but helpful for tracking).
    • Enter the Item Weight. Ensure units are consistent (e.g., all in pounds or all in kilograms).
    • Enter the Item CG (Arm). This is the distance from the aircraft's datum. The units must match your aircraft's empty CG units (e.g., inches or centimeters). Refer to your aircraft's manual for the correct arm for each seating position, baggage compartment, or fuel tank.
  3. Add More Items: Click the 'Add Item' button (if available, or manually replicate input groups) to add more rows for additional passengers, baggage, or equipment.
  4. Calculate: Once all relevant weights and arms are entered, click the 'Calculate' button.
  5. Review Results: The calculator will display:
    • Intermediate Values: Individual moments for each item.
    • Total Weight: The sum of all weights.
    • Total Moment: The sum of all moments.
    • Calculated CG: The resulting center of gravity.
    • Primary Result: A clear indication of whether the aircraft is within the normal CG range, and below MTOW.
    • Weight and CG Envelope Chart: A visual representation showing where your calculated CG falls relative to the aircraft's limits.
    • Summary Table: A breakdown of all items contributing to the weight and balance.
  6. Interpret: Compare the calculated Total Weight against the Maximum Takeoff Weight (MTOW) and the calculated CG against the aircraft's forward and aft CG limits (often shown on the chart).
  7. Decision Making: If the aircraft is within limits, the flight is safe from a weight and balance perspective. If it is outside the limits, adjustments must be made – remove weight, redistribute weight, or reduce fuel load – and the calculation redone until limits are met.
  8. Reset: Use the 'Reset' button to clear all fields and start a new calculation.
  9. Copy Results: Use the 'Copy Results' button to save or share the calculated summary.

Key Factors That Affect Online Weight and Balance Results

Several factors significantly influence the weight and balance calculations for any aircraft. Understanding these is crucial for accurate and safe operations. This sophisticated **online weight and balance calculator** helps manage these factors:

  1. Aircraft Empty Weight and CG: This is the baseline. Any changes to the aircraft's permanent equipment (e.g., installing avionics, interior modifications) will alter the empty weight and CG, requiring an updated calculation. Always use the latest figures from the aircraft's Weight and Balance record.
  2. Payload Distribution: Where items are placed is as important as their weight. Placing a heavy item further aft increases the total moment more than placing it closer to the datum, shifting the CG aft. Conversely, placing it forward shifts the CG forward.
  3. Passenger and Crew Weights: Standard weights are often used for passengers (e.g., 190 lbs or 86 kg in the US for part 121 ops), but actual weights can vary significantly, especially with different demographics or specialized gear. Using accurate weights is key.
  4. Fuel Load: Fuel is often the most significant variable payload. The weight of fuel changes as it is burned during flight, and its moment also changes as its location relative to the datum shifts (especially if fuel is transferred between tanks or burned from specific tanks). Many aircraft have fuel located at arms that place it within the CG envelope at full load, but outside at empty load.
  5. Baggage Weight and Location: Different baggage compartments have different arms. Placing baggage in a rear compartment will shift the CG aft, while placing it in a forward compartment will shift it forward. Exceeding weight limits for specific compartments is also a safety concern.
  6. Equipment and Modifications: Any permanent or temporary equipment added to the aircraft, such as long-range ferry tanks, specialized scientific instruments, or even heavy survival gear, must be accounted for. These changes can significantly impact the overall weight and CG, potentially requiring a new aircraft weight and balance computation by a mechanic.
  7. CG Limits (Forward and Aft): These are dictated by the aircraft manufacturer and certified by aviation authorities. The forward limit ensures adequate control response (especially elevator authority at slower speeds), while the aft limit ensures adequate stability. Exceeding either can lead to dangerous flight characteristics.
  8. Maximum Takeoff Weight (MTOW): This is the maximum allowable weight for the aircraft at the start of the takeoff roll. Exceeding MTOW reduces climb performance, increases takeoff distance, and can place excessive stress on the airframe.

Frequently Asked Questions (FAQ)

Q: How often should I perform a weight and balance calculation?

A: You should perform a weight and balance calculation before every flight, especially if the aircraft load is different from previous flights or if you are unsure. For significant changes, an updated computation by an A&P mechanic might be required.

Q: What is the difference between weight and balance and CG (Center of Gravity)?

A: Weight is the total mass of the aircraft and its contents. CG is the point where the aircraft's total weight is considered to be concentrated. Both must be within limits, but CG is often the more critical factor for stability and control.

Q: What happens if my aircraft is outside the CG limits?

A: Flying outside CG limits is extremely dangerous. Being too far forward can lead to difficulty maintaining altitude or controlling the aircraft at slow speeds. Being too far aft can lead to instability, difficulty controlling pitch, and potentially uncontrollable flight.

Q: Can I use standard weights for passengers and baggage?

A: Many regulations allow the use of standard weights (e.g., 190 lbs for passengers, 15 lbs for checked baggage per bag) for convenience, but only if the actual weights are expected to be close to these averages. For critical operations or when weights are significantly different, using actual weights is required and safer.

Q: What is an 'arm' and why is it important?

A: The 'arm' is the horizontal distance from the aircraft's datum (a reference point) to the center of mass of an item. It's crucial because it determines the moment (Weight x Arm), which directly affects the aircraft's CG.

Q: Does fuel weight change the CG?

A: Yes, fuel weight contributes to the total weight and its location (arm) contributes to the total moment, thus affecting the CG. As fuel is consumed, the total weight decreases, and the CG may shift depending on which tanks the fuel is burned from.

Q: What is a 'moment envelope' graph?

A: A moment envelope is a graphical representation of the aircraft's CG limits expressed in terms of total moment versus total weight. It's an alternative way to check compliance and is often used in conjunction with the CG range.

Q: What is the difference between the empty weight and the operating weight?

A: Empty weight is the weight of the aircraft without crew, passengers, or usable fuel. Operating weight (or current takeoff weight) is the weight of the aircraft at the start of the takeoff roll, including crew, passengers, baggage, and usable fuel.

Q: Does this calculator replace my aircraft's manual?

A: No, this calculator is a tool to help you perform the calculations. You must always refer to your specific aircraft's Flight Manual (AFM) or Pilot's Operating Handbook (POH) for its certified empty weight, empty weight CG, CG limits, and maximum takeoff weight.

Related Tools and Internal Resources

var chart = null; // Declare chart globally function getElement(id) { return document.getElementById(id); } function validateInput(value, min, max, inputId, errorId, helperTextId) { var errorElement = getElement(errorId); var helperElement = getElement(helperTextId); var inputElement = getElement(inputId); if (value === "") { errorElement.textContent = "This field cannot be empty."; errorElement.style.display = "block"; helperElement.style.display = "none"; inputElement.style.borderColor = "#dc3545"; return false; } var numberValue = parseFloat(value); if (isNaN(numberValue)) { errorElement.textContent = "Please enter a valid number."; errorElement.style.display = "block"; helperElement.style.display = "none"; inputElement.style.borderColor = "#dc3545"; return false; } if (numberValue max) { errorElement.textContent = "Value cannot be greater than " + max + "."; errorElement.style.display = "block"; helperElement.style.display = "none"; inputElement.style.borderColor = "#dc3545"; return false; } errorElement.textContent = ""; errorElement.style.display = "none"; helperElement.style.display = "block"; inputElement.style.borderColor = "#ccc"; return true; } function updateChart() { var ctx = getElement('cgChart').getContext('2d'); if (chart) { chart.destroy(); // Destroy previous chart instance } // Aircraft Limits (Example for a typical light aircraft like Cessna 172) // These should ideally come from user input or aircraft selection var maxTakeoffWeight = 2400; // lbs var forwardCGLimit = 68.0; // inches var aftCGLimit = 99.0; // inches var datum = 0; // assuming datum is at 0 for simplicity in chart var aircraftWeight = parseFloat(getElement('aircraftWeight').value) || 0; var aircraftCG = parseFloat(getElement('aircraftCG').value) || 0; var payloadItem1Weight = parseFloat(getElement('payloadItem1Weight').value) || 0; var payloadItem1CG = parseFloat(getElement('payloadItem1CG').value) || 0; var payloadItem2Weight = parseFloat(getElement('payloadItem2Weight').value) || 0; var payloadItem2CG = parseFloat(getElement('payloadItem2CG').value) || 0; // Add more payload items if dynamically added var totalWeight = aircraftWeight + payloadItem1Weight + payloadItem2Weight; var totalMoment = (aircraftWeight * aircraftCG) + (payloadItem1Weight * payloadItem1CG) + (payloadItem2Weight * payloadItem2CG); var calculatedCG = totalWeight > 0 ? totalMoment / totalWeight : 0; // Calculate moments for CG limits var forwardMomentLimit = maxTakeoffWeight * forwardCGLimit; var aftMomentLimit = maxTakeoffWeight * aftCGLimit; // Determine weight for plotting limits – assume we plot up to a reasonable max weight var plotMaxWeight = Math.max(totalWeight, maxTakeoffWeight) * 1.2; var plotMinWeight = 0; // Calculate CG points for the limits at plotMaxWeight var forwardCGMaxW = forwardCGLimit; // CG Limit is constant arm var aftCGMaxW = aftCGLimit; // CG Limit is constant arm chart = new Chart(ctx, { type: 'line', data: { labels: ['Weight (lbs)'], // Simplified for single line plot, conceptually datasets: [{ label: 'Calculated CG', data: [{ x: totalWeight, y: calculatedCG }], borderColor: '#28a745', // Success color for calculated CG backgroundColor: '#28a745', pointRadius: 6, pointHoverRadius: 8, fill: false, tension: 0 // Makes it a straight line segment }, { label: 'Forward CG Limit', data: [{ x: plotMinWeight, y: forwardCGLimit }, { x: plotMaxWeight, y: forwardCGLimit }], borderColor: '#dc3545', // Red for limit borderDash: [5, 5], pointRadius: 0, fill: false, tension: 0 }, { label: 'Aft CG Limit', data: [{ x: plotMinWeight, y: aftCGLimit }, { x: plotMaxWeight, y: aftCGLimit }], borderColor: '#ffc107', // Yellow for limit borderDash: [5, 5], pointRadius: 0, fill: false, tension: 0 }, { label: 'Max Takeoff Weight', data: [{ x: maxTakeoffWeight, y: plotMinWeight }, { x: maxTakeoffWeight, y: 100 }], // Placeholder for max weight line borderColor: '#004a99', // Primary color borderDash: [2, 2], pointRadius: 0, fill: false, tension: 0 }] }, options: { responsive: true, maintainAspectRatio: false, scales: { x: { title: { display: true, text: 'Total Weight (lbs)' }, min: plotMinWeight, max: plotMaxWeight, grid: { color: 'rgba(0, 0, 0, 0.1)' } }, y: { title: { display: true, text: 'Center of Gravity (Arm – inches)' }, min: Math.min(forwardCGLimit – 10, calculatedCG – 10), // Adjust min/max for better visualization max: Math.max(aftCGLimit + 10, calculatedCG + 10), grid: { color: 'rgba(0, 0, 0, 0.1)' } } }, plugins: { tooltip: { callbacks: { label: function(context) { var label = context.dataset.label || "; if (label) { label += ': '; } if (context.parsed.x !== null && context.parsed.y !== null) { label += `Weight: ${context.parsed.x.toFixed(1)} lbs, CG: ${context.parsed.y.toFixed(1)} inches`; } return label; } } }, legend: { display: true, position: 'bottom', labels: { generateLabels: function(chart) { var data = chart.data; if (!data.labels || data.labels.length === 0) { return []; } return data.labels.map(function(label, i) { var dataset = data.datasets[i]; var meta = chart.getDatasetMeta(i); var style = meta.controller.getStyle(0); return { text: dataset.label, fillStyle: style.backgroundColor, strokeStyle: style.borderColor, lineWidth: style.borderWidth, hidden: !chart.isDatasetVisible(i), index: i }; }); } } } } } }); // Update legend manually if needed var legendHtml = ' Calculated CG' + ' Forward CG Limit' + ' Aft CG Limit' + ' Max Takeoff Weight'; getElement('chartLegend').innerHTML = legendHtml; } function calculateWeightAndBalance() { var isValid = true; // — Aircraft Data Validation — var aircraftWeight = getElement('aircraftWeight').value; var aircraftCG = getElement('aircraftCG').value; if (!validateInput(aircraftWeight, 0, Infinity, 'aircraftWeight', 'aircraftWeightError', 'aircraftWeightHelper')) isValid = false; if (!validateInput(aircraftCG, -Infinity, Infinity, 'aircraftCG', 'aircraftCGError', 'aircraftCGHelper')) isValid = false; // — Payload Data Validation — var payloadItems = document.querySelectorAll('#payloadItemsContainer .payload-item'); var allPayloadValid = true; for (var i = 0; i < payloadItems.length; i++) { var item = payloadItems[i]; var weightInput = item.querySelector('input[type="number"][name$="Weight"]'); var cgInput = item.querySelector('input[type="number"][name$="CG"]'); var weightError = item.querySelector('.error-display[id$="WeightError"]'); var cgError = item.querySelector('.error-display[id$="CGError"]'); var weightHelper = item.querySelector('.helper-text[id$="WeightHelper"]'); // Need to ensure helper IDs exist if used var cgHelper = item.querySelector('.helper-text[id$="CGHelper"]'); // Need to ensure helper IDs exist if used var weightValue = weightInput.value; var cgValue = cgInput.value; if (!validateInput(weightValue, 0, Infinity, weightInput.id, weightError.id, weightHelper ? weightHelper.id : null)) { allPayloadValid = false; } if (!validateInput(cgValue, -Infinity, Infinity, cgInput.id, cgError.id, cgHelper ? cgHelper.id : null)) { allPayloadValid = false; } } if (!allPayloadValid) isValid = false; if (!isValid) { getElement('resultsContainer').style.display = 'none'; return; } // — Calculations — var emptyWeight = parseFloat(aircraftWeight); var emptyCG = parseFloat(aircraftCG); var totalWeight = emptyWeight; var totalMoment = emptyWeight * emptyCG; var intermediateResultsHtml = ''; var summaryTableHtml = 'Aircraft Empty Weight' + emptyWeight.toFixed(1) + '' + emptyCG.toFixed(1) + '' + (emptyWeight * emptyCG).toFixed(1) + ''; for (var i = 0; i < payloadItems.length; i++) { var item = payloadItems[i]; var itemNameInput = item.querySelector('input[type="text"][name$="Name"]'); var weightInput = item.querySelector('input[type="number"][name$="Weight"]'); var cgInput = item.querySelector('input[type="number"][name$="CG"]'); var currentWeight = parseFloat(weightInput.value); var currentCG = parseFloat(cgInput.value); var currentMoment = currentWeight * currentCG; var currentName = itemNameInput.value || ('Item ' + (i + 1)); totalWeight += currentWeight; totalMoment += currentMoment; intermediateResultsHtml += '
Moment for ' + currentName + ':' + currentMoment.toFixed(1) + '
'; summaryTableHtml += '' + currentName + '' + currentWeight.toFixed(1) + '' + currentCG.toFixed(1) + '' + currentMoment.toFixed(1) + ''; } var calculatedCG = totalWeight > 0 ? totalMoment / totalWeight : 0; // — Display Results — getElement('intermediateResults').innerHTML = intermediateResultsHtml; // Aircraft Specific Limits (Example) var maxTakeoffWeight = 2400; // lbs var forwardCGLimit = 68.0; // inches var aftCGLimit = 99.0; // inches var resultMessage = "; var resultClass = "; if (totalWeight > maxTakeoffWeight) { resultMessage = "OVER MAXIMUM TAKEOFF WEIGHT!"; resultClass = 'primary-result-warning'; // Use a different class for warnings } else if (calculatedCG aftCGLimit) { resultMessage = "OUTSIDE AFT CG LIMIT!"; resultClass = 'primary-result-warning'; } else { resultMessage = "Within Limits"; resultClass = 'primary-result-success'; // Use success color } getElement('primaryResult').textContent = resultMessage; getElement('primaryResult').className = 'primary-result ' + resultClass; // Update class for styling getElement('resultsContainer').style.display = 'block'; getElement('summaryTableBody').innerHTML = summaryTableHtml; // — Formulas Used Explanation — var formulasHtml = "Formulas Used: Moment = Weight × Arm; Total Weight = Sum of Weights; Total Moment = Sum of Moments; CG = Total Moment / Total Weight."; getElement('formulasUsed').innerHTML = formulasHtml; // — Key Assumptions — var assumptionsHtml = "Key Assumptions: Consistent units (lbs/kg for weight, inches/cm for arm)."; getElement('keyAssumptions').innerHTML = assumptionsHtml; // — Update Chart — updateChart(); } function resetForm() { getElement('aircraftWeight').value = '1450'; getElement('aircraftCG').value = '72.0'; getElement('payloadItem1Name').value = 'Pilot'; getElement('payloadItem1Weight').value = '170'; getElement('payloadItem1CG').value = '78'; getElement('payloadItem2Name').value = 'Passenger'; getElement('payloadItem2Weight').value = '150'; getElement('payloadItem2CG').value = '85'; // Clear any additional items if dynamically added var dynamicItems = document.querySelectorAll('#payloadItemsContainer .payload-item'); for (var i = 2; i < dynamicItems.length; i++) { dynamicItems[i].remove(); } getElement('resultsContainer').style.display = 'none'; getElement('intermediateResults').innerHTML = ''; getElement('primaryResult').textContent = ''; getElement('formulasUsed').innerHTML = ''; getElement('keyAssumptions').innerHTML = ''; getElement('summaryTableBody').innerHTML = 'Aircraft Empty Weight'; // Reset table header getElement('cgChart').getContext('2d').clearRect(0, 0, getElement('cgChart').width, getElement('cgChart').height); // Clear canvas if (chart) { chart.destroy(); chart = null; } // Reset error messages and borders var allInputs = document.querySelectorAll('input, select'); for (var i = 0; i < allInputs.length; i++) { var inputId = allInputs[i].id; var errorId = inputId + 'Error'; var helperId = inputId + 'Helper'; var errorElement = getElement(errorId); var helperElement = getElement(helperId); if (errorElement) { errorElement.textContent = ""; errorElement.style.display = "none"; } if (helperElement) { helperElement.style.display = "block"; } allInputs[i].style.borderColor = "#ccc"; } } function copyResults() { var resultsDiv = getElement('resultsContainer'); if (resultsDiv.style.display === 'none') { alert("No results to copy yet. Please calculate first."); return; } var contentToCopy = "Aircraft Weight and Balance Calculation:\n\n"; // Key Assumptions contentToCopy += getElement('keyAssumptions').textContent + "\n\n"; // Formulas Used contentToCopy += getElement('formulasUsed').textContent + "\n\n"; // Intermediate Results contentToCopy += "— Intermediate Moments —\n"; var intermediateItems = resultsDiv.querySelectorAll('.result-item'); intermediateItems.forEach(function(item) { contentToCopy += item.textContent + "\n"; }); contentToCopy += "\n"; // Summary Table contentToCopy += "— Summary Table —\n"; var summaryTable = getElement('summaryTableBody'); var rows = summaryTable.getElementsByTagName('tr'); for (var i = 0; i < rows.length; i++) { var cells = rows[i].getElementsByTagName('td'); var rowData = []; for (var j = 0; j < cells.length; j++) { rowData.push(cells[j].textContent); } contentToCopy += rowData.join('\t') + "\n"; // Use tab for better formatting } contentToCopy += "\n"; // Primary Result contentToCopy += "— Final Verdict —\n"; contentToCopy += "Result: " + getElement('primaryResult').textContent + "\n"; contentToCopy += "Total Weight: " + getElement('summaryTableBody').rows[1].cells[1].textContent + " lbs\n"; // Assuming pilot is second row after empty weight contentToCopy += "Calculated CG: " + getElement('summaryTableBody').rows[1].cells[2].textContent + " inches\n"; // Assuming pilot is second row // Add a placeholder for chart data if needed, or mention chart visualization contentToCopy += "\nChart Visualization: See the generated chart for CG envelope details."; // Use a temporary textarea to copy to clipboard var textArea = document.createElement("textarea"); textArea.value = contentToCopy; textArea.style.position = "fixed"; textArea.style.left = "-9999px"; document.body.appendChild(textArea); textArea.focus(); textArea.select(); try { var successful = document.execCommand('copy'); var msg = successful ? 'Results copied to clipboard!' : 'Failed to copy results.'; alert(msg); } catch (err) { alert('Oops, unable to copy. Please copy manually.'); } document.body.removeChild(textArea); } // Initial calculation on load to populate chart with defaults window.onload = function() { resetForm(); // Resets to default values and clears results calculateWeightAndBalance(); // Perform initial calculation to set up chart and display default results };

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