A36 Bonanza Weight and Balance Calculator

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A36 Bonanza Weight and Balance Calculator

Aircraft Weight and Balance Calculator

Enter your aircraft's current configuration to ensure it is within the approved weight and balance limits for safe flight. This calculator is designed for the A36 Bonanza.

Your aircraft's basic operating weight, typically found in the POH.
The horizontal distance from the datum to the aircraft's empty weight center of gravity.
Weight of the pilot and/or front passenger.
The horizontal distance from the datum for the forward seats.
Weight of the rear passenger(s).
The horizontal distance from the datum for the aft seats.
Weight in the primary baggage compartment.
The horizontal distance from the datum for Baggage Compartment 1.
Weight in the secondary baggage compartment (if applicable).
The horizontal distance from the datum for Baggage Compartment 2.
Total fuel weight (e.g., gallons * 6 lbs/gallon).
The horizontal distance from the datum for the fuel tanks.

Flight Summary

  • Current Takeoff Weight (TOW):
  • Empty Weight Moment:
  • Payload Moment:
  • Total Moment:

Formula Explanation

Weight and Balance is calculated by summing the moments of all items (Empty Weight, Occupants, Baggage, Fuel) and dividing by the total weight. A moment is calculated as Weight x Arm. The resulting Center of Gravity (CG) must be within the aircraft's certified limits.

For the A36 Bonanza, the typical certified CG range for takeoff is between 78.0 and 104.5 inches aft of the datum.

CG Envelope Over Time (Simulated)

CG Envelope Comparison
Scenario Total Weight (lbs) CG (inches Aft) Status
Empty Weight
Max Takeoff Weight (MTOW) 78.0 (Forward Limit)
Max Takeoff Weight (MTOW) 104.5 (Aft Limit)
Current Calculated

Understanding the A36 Bonanza Weight and Balance Calculator

The A36 Bonanza weight and balance calculator is a vital tool for any pilot operating this popular aircraft. Ensuring your aircraft is within its certified weight and balance limits is not merely a procedural step; it's a fundamental aspect of flight safety. Operating an aircraft outside these parameters can significantly impact its aerodynamic performance, controllability, and stability, potentially leading to hazardous flight conditions. This calculator simplifies the complex task of verifying your aircraft's readiness for flight.

What is A36 Bonanza Weight and Balance?

A36 Bonanza weight and balance refers to the process of determining the total weight of the aircraft and the location of its center of gravity (CG) at various stages of flight, particularly at takeoff and landing. The CG is the point where the aircraft's weight is considered to be concentrated. For the Beechcraft A36 Bonanza, like all aircraft, there is a specific, certified range within which the CG must fall to ensure safe flight characteristics.

Who should use it:

  • Pilots: Essential for pre-flight planning and ensuring compliance with the aircraft's operating limitations.
  • Mechanics and Maintenance Personnel: For calculating changes to the aircraft's empty weight and CG after maintenance or modifications.
  • Flight Schools: To train new pilots on the importance and procedure of weight and balance calculations.

Common misconceptions:

  • "As long as the total weight is below max gross, it's fine." – This is incorrect. The CG location is equally, if not more, critical than the total weight.
  • "Weight and balance is only for long trips or with heavy loads." – It is required for every flight, regardless of payload, as passenger and fuel load vary.
  • "The POH (Pilot's Operating Handbook) charts are too complicated." – While they require understanding, they are the definitive source. A calculator automates this process based on those figures.

A36 Bonanza Weight and Balance Formula and Mathematical Explanation

The core principle of aircraft weight and balance relies on the concept of moments. A moment is the product of a weight and its horizontal distance from a reference point known as the datum. The datum is an arbitrary vertical plane from which all horizontal measurements are taken. For the A36 Bonanza, the datum is typically located at the aircraft's firewall.

The fundamental formula is:

Moment = Weight × Arm

To determine the aircraft's Center of Gravity (CG), you sum the moments of all individual components (empty weight, crew, passengers, baggage, fuel) and then divide by the total weight of these components.

Total Moment = Σ (Weight_i × Arm_i)

Total Weight = Σ Weight_i

Center of Gravity (CG) = Total Moment / Total Weight

The calculated CG is then compared against the aircraft's certified forward and aft CG limits for the given phase of flight (e.g., takeoff, landing). The A36 Bonanza weight and balance calculator automates these calculations.

Weight and Balance Variables
Variable Meaning Unit Typical Range (A36 Bonanza)
Empty Weight The weight of the aircraft without crew, passengers, or usable fuel, but including fixed equipment and unusable fuel. lbs ~2100 – 2300 lbs
Empty Weight CG Arm Horizontal distance of the empty weight's CG from the datum. inches ~90 – 100 inches
Occupant Weight Weight of pilot, co-pilot, and passengers. lbs ~150 – 250 lbs per person
Occupant CG Arm Horizontal distance of each occupant's CG from the datum. Varies by seat location. inches Forward seats: ~75-85; Aft seats: ~110-120
Baggage Weight Weight of items stowed in baggage compartments. Limited by compartment capacity and total aircraft CG. lbs Compartment 1: Max ~150-200 lbs; Compartment 2: Max ~50-100 lbs
Baggage CG Arm Horizontal distance of each baggage compartment's CG from the datum. inches Compartment 1: ~140-150; Compartment 2: ~170-180
Fuel Weight Weight of usable fuel (gallons × 6 lbs/gallon for Avgas). lbs Up to ~480 lbs (100 gallons usable)
Fuel CG Arm Horizontal distance of the fuel's CG from the datum. Varies with tank location. inches ~75 – 90 inches (depends on tank configuration)
Total Weight Sum of all weights on board. Must be less than or equal to Max Gross Takeoff Weight (MGTOW). lbs MGTOW: ~3650 lbs
Total Moment Sum of the moments of all items on board. lb-in Varies widely; calculated.
Center of Gravity (CG) The calculated point where the aircraft's weight is balanced. inches aft of datum Takeoff: 78.0 – 104.5 inches; Landing: 78.0 – 105.5 inches
Datum Reference point for CG measurements. inches Typically at the firewall (0 inches).

Practical Examples

Let's illustrate with two common scenarios for the A36 Bonanza weight and balance calculator.

Example 1: Typical Cross-Country Flight

Scenario: A pilot and one passenger are flying a cross-country trip. They have 50 gallons of fuel and moderate baggage.

  • Pilot Weight: 180 lbs, Arm: 78.2 in
  • Passenger Weight: 160 lbs, Arm: 78.2 in
  • Baggage 1 Weight: 100 lbs, Arm: 145.0 in
  • Fuel Weight: 300 lbs (50 gal x 6 lbs/gal), Arm: 80.0 in
  • A36 Empty Weight: 2200 lbs, Arm: 95.5 in

Calculation using the calculator:

  • Empty Moment: 2200 lbs * 95.5 in = 210,100 lb-in
  • Occupant Moment (Pilot + Passenger): (180 + 160) lbs * 78.2 in = 340 lbs * 78.2 in = 26,588 lb-in
  • Baggage Moment: 100 lbs * 145.0 in = 14,500 lb-in
  • Fuel Moment: 300 lbs * 80.0 in = 24,000 lb-in
  • Total Moment: 210,100 + 26,588 + 14,500 + 24,000 = 275,188 lb-in
  • Total Weight: 2200 + 340 + 100 + 300 = 2940 lbs
  • Calculated CG: 275,188 lb-in / 2940 lbs = 93.60 inches aft of datum

Interpretation: With a calculated CG of 93.60 inches, this flight configuration is well within the A36 Bonanza's takeoff CG limits (78.0 – 104.5 inches). The aircraft is safe to fly.

Example 2: Maximum Payload Flight

Scenario: Four adults, maximum baggage, and near full fuel tanks. This tests the upper limits of the aircraft's capacity.

  • Pilot Weight: 200 lbs, Arm: 78.2 in
  • Passenger 1 Weight: 180 lbs, Arm: 78.2 in
  • Passenger 2 Weight: 160 lbs, Arm: 115.0 in
  • Passenger 3 Weight: 140 lbs, Arm: 115.0 in
  • Baggage 1 Weight: 150 lbs, Arm: 145.0 in
  • Fuel Weight: 480 lbs (80 gal x 6 lbs/gal), Arm: 80.0 in
  • A36 Empty Weight: 2200 lbs, Arm: 95.5 in

Calculation using the calculator:

  • Empty Moment: 2200 lbs * 95.5 in = 210,100 lb-in
  • Occupant Moment (2 Front): (200 + 180) lbs * 78.2 in = 380 lbs * 78.2 in = 29,716 lb-in
  • Occupant Moment (2 Aft): (160 + 140) lbs * 115.0 in = 300 lbs * 115.0 in = 34,500 lb-in
  • Baggage Moment: 150 lbs * 145.0 in = 21,750 lb-in
  • Fuel Moment: 480 lbs * 80.0 in = 38,400 lb-in
  • Total Moment: 210,100 + 29,716 + 34,500 + 21,750 + 38,400 = 334,466 lb-in
  • Total Weight: 2200 + 380 + 300 + 150 + 480 = 3510 lbs
  • Calculated CG: 334,466 lb-in / 3510 lbs = 95.29 inches aft of datum

Interpretation: The total weight of 3510 lbs is below the A36 Bonanza's Max Gross Takeoff Weight (MGTOW) of 3650 lbs. The calculated CG of 95.29 inches is also within the takeoff limits (78.0 – 104.5 inches). This configuration is safe for takeoff.

Note: If the calculated CG had been outside the limits, payload would need to be adjusted (e.g., less baggage, lighter passengers, less fuel) and recalculated. This is where the precision of the A36 Bonanza weight and balance calculator becomes indispensable.

How to Use This A36 Bonanza Weight and Balance Calculator

Using the A36 Bonanza weight and balance calculator is straightforward. Follow these steps for accurate results:

  1. Gather Information: Obtain your aircraft's POH (Pilot's Operating Handbook) for the definitive Empty Weight, Empty Weight CG Arm, and the CG operating limits. Weigh your occupants and baggage.
  2. Input Empty Weight Data: Enter the Empty Weight of your A36 Bonanza and its corresponding CG Arm in inches from the datum.
  3. Input Payload: Enter the weights of all occupants (pilot, passengers) and their respective CG Arms based on their seating positions. Do the same for baggage, specifying weight and the CG Arm for each compartment used.
  4. Input Fuel Weight: Calculate your usable fuel weight (gallons × 6 lbs/gallon for Avgas) and enter it, along with the fuel CG Arm.
  5. Calculate: Click the "Calculate" button.
  6. Review Results: The calculator will display:
    • Current Takeoff Weight (TOW): The total weight of the aircraft with all passengers, baggage, and fuel.
    • Current CG: The calculated center of gravity in inches aft of the datum. This is the primary result.
    • Intermediate Values: Such as Empty Weight Moment and Payload Moment, which help understand the contribution of each element.
  7. Check Status: The calculator will indicate if the calculated CG is within the normal takeoff envelope. The chart and table provide a visual comparison against the aircraft's limits.
  8. Adjust if Necessary: If the CG is outside the limits, you must adjust the load. This might mean removing baggage, reducing fuel, or ensuring passengers are within weight limits and positioned appropriately. Recalculate after making adjustments.
  9. Reset: Use the "Reset" button to clear all fields and start over.
  10. Copy: Use the "Copy Results" button to easily transfer the calculated values for record-keeping.

Accurate A36 Bonanza weight and balance is critical for safe operation. Never compromise on this essential pre-flight step.

Key Factors That Affect A36 Bonanza Results

Several factors significantly influence the weight and balance calculations for an A36 Bonanza:

  1. Passenger and Cargo Loading: The weight and exact placement of passengers and baggage are primary drivers of CG shift. Moving weight forward or aft has a direct impact.
  2. Fuel Loading: As fuel is consumed during flight, the aircraft's weight decreases, and the CG shifts aft. The starting fuel load and its arm are crucial inputs. The weight of 1 gallon of 100LL Avgas is approximately 6 lbs.
  3. Aircraft Configuration Changes: Installing or removing equipment (e.g., avionics upgrades, long-range fuel tanks, new interior) changes the aircraft's Empty Weight and its CG Arm, requiring an updated weight and balance computation.
  4. Crew Weight Variation: Even a few pounds difference in pilot or passenger weight can affect the CG, especially when operating near the limits.
  5. Baggage Compartment Limitations: The A36 Bonanza has specific weight limits for its baggage compartments (usually two), and these must be adhered to. Improper loading (e.g., placing heavy items too far aft) can be dangerous.
  6. Datum Reference Point: All calculations are relative to the datum. Errors in measuring the arm distances from the datum for any item will propagate through the entire calculation. Always use the datum specified in the POH.
  7. Maximum Gross Takeoff Weight (MGTOW): The total calculated weight must not exceed the MGTOW (3650 lbs for most A36 models). Exceeding this weight impacts performance, stall speed, and structural integrity.
  8. Center of Gravity Limits: The most critical factor. The calculated CG must remain within the forward and aft limits specified in the POH for both takeoff and landing phases of flight. Exceeding these limits drastically affects aircraft stability and controllability.

Frequently Asked Questions (FAQ)

Q1: What is the datum for the A36 Bonanza?

A: The datum for the A36 Bonanza is typically located at the aircraft's firewall. Always confirm the exact datum location and arm measurements in your specific aircraft's POH.

Q2: What are the typical CG limits for the A36 Bonanza?

A: For takeoff, the CG limits are generally between 78.0 and 104.5 inches aft of the datum. For landing, the aft limit may be slightly extended to 105.5 inches. Verify these in your POH.

Q3: How often should I update my aircraft's weight and balance?

A: You must recompute the weight and balance any time the empty weight or empty weight CG changes by more than a specified amount (often 1% of the empty weight moment), or when major equipment is installed or removed. Annual weighing is also recommended.

Q4: What happens if I fly outside the CG limits?

A: Flying outside CG limits can make the aircraft unstable and difficult to control, particularly during critical phases like takeoff and landing. It can lead to reduced maneuverability, longer takeoffs, and increased stall speed.

Q5: Does the calculator account for fuel burn during flight?

A: This calculator determines the weight and balance at the start of the flight (takeoff). As fuel burns off, the total weight decreases and the CG shifts aft. Pilots must be aware of this shift and ensure the CG remains within limits throughout the flight, especially on longer trips.

Q6: Can I use this calculator for other aircraft models?

A: This calculator is specifically tailored for the A36 Bonanza, using its typical empty weights, arm values, and CG limits. For other aircraft, you would need a calculator designed for that specific model, as dimensions and limits vary significantly.

Q7: What is the difference between weight and balance?

A: Weight is the total mass of the aircraft and its contents. Balance refers to the location of the center of gravity (CG) relative to the aircraft's structure. Both are critical for safe flight.

Q8: What is the maximum takeoff weight (MTOW) for the A36 Bonanza?

A: The standard Max Gross Takeoff Weight (MGTOW) for most A36 Bonanzas is 3650 lbs. Always refer to your POH for the exact figure applicable to your specific aircraft.

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var cgChart = null; var chartContext = null; function initializeChart() { chartContext = getElement('cgChart').getContext('2d'); cgChart = new Chart(chartContext, { type: 'line', data: { labels: [], datasets: [{ label: 'Current CG', data: [], borderColor: 'rgba(0, 74, 153, 1)', backgroundColor: 'rgba(0, 74, 153, 0.1)', fill: false, tension: 0.1, borderWidth: 2 }, { label: 'CG Limits', data: [], // Placeholder, will be populated with limit values borderColor: 'rgba(40, 167, 69, 1)', // Green for limits backgroundColor: 'rgba(40, 167, 69, 0.1)', fill: '-1', // Fill to the previous dataset (Current CG) tension: 0.1, borderWidth: 1, pointRadius: 0 // No points for limit line }] }, options: { responsive: true, maintainAspectRatio: false, scales: { y: { beginAtZero: false, title: { display: true, text: 'Center of Gravity (inches aft of datum)' } }, x: { title: { display: true, text: 'Scenario Point' } } }, plugins: { tooltip: { callbacks: { label: function(context) { var label = context.dataset.label || "; if (label) { label += ': '; } if (context.parsed.y !== null) { label += context.parsed.y.toFixed(2); } return label; } } }, legend: { position: 'top', } } } }); } function updateChart(currentWeight, currentCG, isEmptyWeightValid, maxTakeoffWeight, forwardLimit, aftLimit) { if (!cgChart) { initializeChart(); } if (!cgChart) return; // Chart initialization failed var labels = []; var currentCGData = []; var cgLimitsData = []; var currentStatusText = getElement('tableCurrentStatus'); var statusColor = 'var(–primary-color)'; // Default color // Scenario Points var points = [ { name: "Empty Wt.", weight: getInputValueAsNumber('emptyWeight'), arm: getInputValueAsNumber('emptyWeightArm'), index: 0 }, { name: "Forward Limit", weight: maxTakeoffWeight, arm: forwardLimit, index: 1 }, { name: "Aft Limit", weight: maxTakeoffWeight, arm: aftLimit, index: 2 } ]; if (isEmptyWeightValid && currentWeight !== null && currentCG !== null) { points.push({ name: "Current", weight: currentWeight, arm: currentCG, index: 3 }); 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// Fill between current CG and limits } cgChart.update(); } // Update table data function updateScenarioTable(currentWeight, currentArm, isEmptyWeightValid, maxTakeoffWeight, forwardLimit, aftLimit) { var tableEmptyWeight = getElement('tableEmptyWeight'); var tableEmptyArm = getElement('tableEmptyArm'); var tableMaxWeight = getElement('tableMaxWeight'); var tableMaxWeight2 = getElement('tableMaxWeight2'); var tableCurrentWeight = getElement('tableCurrentWeight'); var tableCurrentArm = getElement('tableCurrentArm'); var tableCurrentStatus = getElement('tableCurrentStatus'); var ew = getInputValueAsNumber('emptyWeight'); var ewArm = getInputValueAsNumber('emptyWeightArm'); if (tableEmptyWeight) tableEmptyWeight.innerText = ew !== null ? ew.toFixed(1) : '–'; if (tableEmptyArm) tableEmptyArm.innerText = ewArm !== null ? ewArm.toFixed(1) : '–'; if (tableMaxWeight) tableMaxWeight.innerText = maxTakeoffWeight.toFixed(1); if (tableMaxWeight2) tableMaxWeight2.innerText = maxTakeoffWeight.toFixed(1); if (tableCurrentWeight) tableCurrentWeight.innerText = currentWeight !== null ? currentWeight.toFixed(1) : '–'; if (tableCurrentArm) tableCurrentArm.innerText = currentArm !== null ? currentArm.toFixed(1) : '–'; // Update status text in the table as well if (tableCurrentStatus) { if (currentArm !== null && isEmptyWeightValid) { if (currentArm aftLimit) { tableCurrentStatus.innerText = 'Aft of Limit'; tableCurrentStatus.style.color = 'var(–error-color)'; } else { tableCurrentStatus.innerText = 'Within Limits'; tableCurrentStatus.style.color = 'var(–success-color)'; } } else { tableCurrentStatus.innerText = 'N/A'; tableCurrentStatus.style.color = 'var(–primary-color)'; } } } function calculateWeightAndBalance() { // — Get Inputs — var emptyWeight = getInputValueAsNumber('emptyWeight'); var emptyWeightArm = getInputValueAsNumber('emptyWeightArm'); var forwardSeatWeight = getInputValueAsNumber('forwardSeatWeight'); var forwardSeatArm = getInputValueAsNumber('forwardSeatArm'); var aftSeatWeight = getInputValueAsNumber('aftSeatWeight'); var aftSeatArm = getInputValueAsNumber('aftSeatArm'); var baggage1Weight = getInputValueAsNumber('baggage1Weight'); var baggage1Arm = getInputValueAsNumber('baggage1Arm'); var baggage2Weight = getInputValueAsNumber('baggage2Weight'); var baggage2Arm = getInputValueAsNumber('baggage2Arm'); var fuelWeight = getInputValueAsNumber('fuelWeight'); var fuelArm = getInputValueAsNumber('fuelArm'); // — Clear Previous Errors — clearError('emptyWeightError'); clearError('emptyWeightArmError'); clearError('forwardSeatWeightError'); clearError('forwardSeatArmError'); clearError('aftSeatWeightError'); clearError('aftSeatArmError'); clearError('baggage1WeightError'); clearError('baggage1ArmError'); clearError('baggage2WeightError'); clearError('baggage2ArmError'); clearError('fuelWeightError'); clearError('fuelArmError'); // — Validate Inputs — var isValid = true; var isEmptyWeightValid = true; // A36 Bonanza standard limits var maxGrossWeight = 3650; // lbs var forwardCGLimit = 78.0; // inches var aftCGLimit = 104.5; // inches (takeoff) if (emptyWeight === null || !isNumeric(getElement('emptyWeight').value) || emptyWeight < 0) { displayError('emptyWeightError', 'Please enter a valid non-negative number for Empty Weight.'); isValid = false; isEmptyWeightValid = false; } if (emptyWeightArm === null || !isNumeric(getElement('emptyWeightArm').value) || emptyWeightArm < 0) { displayError('emptyWeightArmError', 'Please enter a valid non-negative number for Empty Weight Arm.'); isValid = false; isEmptyWeightValid = false; } if (forwardSeatWeight === null || !isNumeric(getElement('forwardSeatWeight').value) || forwardSeatWeight < 0) { displayError('forwardSeatWeightError', 'Please enter a valid non-negative number.'); isValid = false; } if (forwardSeatArm === null || !isNumeric(getElement('forwardSeatArm').value) || forwardSeatArm < 0) { displayError('forwardSeatArmError', 'Please enter a valid non-negative number.'); isValid = false; } if (aftSeatWeight === null || !isNumeric(getElement('aftSeatWeight').value) || aftSeatWeight < 0) { displayError('aftSeatWeightError', 'Please enter a valid non-negative number.'); isValid = false; } if (aftSeatArm === null || !isNumeric(getElement('aftSeatArm').value) || aftSeatArm < 0) { displayError('aftSeatArmError', 'Please enter a valid non-negative number.'); isValid = false; } if (baggage1Weight === null || !isNumeric(getElement('baggage1Weight').value) || baggage1Weight < 0) { displayError('baggage1WeightError', 'Please enter a valid non-negative number.'); isValid = false; } if (baggage1Arm === null || !isNumeric(getElement('baggage1Arm').value) || baggage1Arm < 0) { displayError('baggage1ArmError', 'Please enter a valid non-negative number.'); isValid = false; } if (baggage2Weight === null || !isNumeric(getElement('baggage2Weight').value) || baggage2Weight < 0) { displayError('baggage2WeightError', 'Please enter a valid non-negative number.'); isValid = false; } if (baggage2Arm === null || !isNumeric(getElement('baggage2Arm').value) || baggage2Arm < 0) { displayError('baggage2ArmError', 'Please enter a valid non-negative number.'); isValid = false; } if (fuelWeight === null || !isNumeric(getElement('fuelWeight').value) || fuelWeight < 0) { displayError('fuelWeightError', 'Please enter a valid non-negative number.'); isValid = false; } if (fuelArm === null || !isNumeric(getElement('fuelArm').value) || fuelArm maxBaggage1Weight) { displayError('baggage1WeightError', 'Exceeds max baggage 1 capacity (' + maxBaggage1Weight + ' lbs).'); isValid = false; } if (baggage2Weight !== null && baggage2Weight > maxBaggage2Weight) { displayError('baggage2WeightError', 'Exceeds max baggage 2 capacity (' + maxBaggage2Weight + ' lbs).'); isValid = false; } if (!isValid) { setElementText('currentCG', 'ERR'); setElementText('currentWeight', 'ERR'); setElementText('emptyMoment', 'ERR'); setElementText('payloadMoment', 'ERR'); setElementText('totalMoment', 'ERR'); updateScenarioTable(null, null, false, maxGrossWeight, forwardCGLimit, aftCGLimit); updateChart(null, null, false, maxGrossWeight, forwardCGLimit, aftCGLimit); return; } // — Calculations — var emptyMoment = emptyWeight * emptyWeightArm; var forwardSeatMoment = forwardSeatWeight * forwardSeatArm; var aftSeatMoment = aftSeatWeight * aftSeatArm; var baggage1Moment = baggage1Weight * baggage1Arm; var baggage2Moment = baggage2Weight * baggage2Arm; var fuelMoment = fuelWeight * fuelArm; var payloadWeight = forwardSeatWeight + aftSeatWeight + baggage1Weight + baggage2Weight + fuelWeight; var payloadMoment = forwardSeatMoment + aftSeatMoment + baggage1Moment + baggage2Moment + fuelMoment; var currentWeight = emptyWeight + payloadWeight; var totalMoment = emptyMoment + payloadMoment; var currentCG = (currentWeight === 0) ? 0 : totalMoment / currentWeight; // — Display Results — setElementText('currentWeight', currentWeight.toFixed(1) + ' lbs'); setElementText('emptyMoment', emptyMoment.toFixed(1) + ' lb-in'); setElementText('payloadMoment', payloadWeight.toFixed(1) + ' lbs / ' + payloadMoment.toFixed(1) + ' lb-in'); setElementText('totalMoment', totalMoment.toFixed(1) + ' lb-in'); var cgResultText = '–'; var mainResultElement = getElement('currentCG'); if (mainResultElement) { if (currentWeight > maxGrossWeight) { mainResultElement.style.backgroundColor = 'var(–error-color)'; cgResultText = 'OVER MAX WEIGHT'; } else if (currentCG aftCGLimit) { mainResultElement.style.backgroundColor = 'var(–error-color)'; cgResultText = currentCG.toFixed(1) + ' (Aft Limit)'; } else { mainResultElement.style.backgroundColor = 'var(–success-color)'; cgResultText = currentCG.toFixed(1) + ' inches'; } mainResultElement.innerText = cgResultText; } // Update scenario table and chart updateScenarioTable(currentWeight, currentCG, isEmptyWeightValid, maxGrossWeight, forwardCGLimit, aftCGLimit); updateChart(currentWeight, currentCG, isEmptyWeightValid, maxGrossWeight, forwardCGLimit, aftCGLimit); } function resetCalculator() { setInputValue('emptyWeight', defaultValues.emptyWeight); setInputValue('emptyWeightArm', defaultValues.emptyWeightArm); setInputValue('forwardSeatWeight', defaultValues.forwardSeatWeight); setInputValue('forwardSeatArm', defaultValues.forwardSeatArm); setInputValue('aftSeatWeight', defaultValues.aftSeatWeight); setInputValue('aftSeatArm', defaultValues.aftSeatArm); setInputValue('baggage1Weight', defaultValues.baggage1Weight); setInputValue('baggage1Arm', defaultValues.baggage1Arm); setInputValue('baggage2Weight', defaultValues.baggage2Weight); setInputValue('baggage2Arm', defaultValues.baggage2Arm); setInputValue('fuelWeight', defaultValues.fuelWeight); setInputValue('fuelArm', defaultValues.fuelArm); // Clear all error messages var errorElements = document.querySelectorAll('.error-message'); for (var i = 0; i < errorElements.length; i++) { errorElements[i].innerText = ''; } // Recalculate with defaults calculateWeightAndBalance(); } function copyResults() { var currentWeight = getElement('currentWeight').innerText; var currentCG = getElement('currentCG').innerText; var emptyMoment = getElement('emptyMoment').innerText; var payloadMoment = getElement('payloadMoment').innerText; var totalMoment = getElement('totalMoment').innerText; var emptyWeightVal = getElement('emptyWeight').value; var emptyWeightArmVal = getElement('emptyWeightArm').value; var forwardSeatWeightVal = getElement('forwardSeatWeight').value; var forwardSeatArmVal = getElement('forwardSeatArm').value; var aftSeatWeightVal = getElement('aftSeatWeight').value; var aftSeatArmVal = getElement('aftSeatArm').value; var baggage1WeightVal = getElement('baggage1Weight').value; var baggage1ArmVal = getElement('baggage1Arm').value; var baggage2WeightVal = getElement('baggage2Weight').value; var baggage2ArmVal = getElement('baggage2Arm').value; var fuelWeightVal = getElement('fuelWeight').value; var fuelArmVal = getElement('fuelArm').value; var assumptions = "Assumptions:\n" + " Empty Weight: " + emptyWeightVal + " lbs @ " + emptyWeightArmVal + " in\n" + " Forward Occupant(s): " + forwardSeatWeightVal + " lbs @ " + forwardSeatArmVal + " in\n" + " Aft Occupant(s): " + aftSeatWeightVal + " lbs @ " + aftSeatArmVal + " in\n" + " Baggage 1: " + baggage1WeightVal + " lbs @ " + baggage1ArmVal + " in\n" + " Baggage 2: " + baggage2WeightVal + " lbs @ " + baggage2ArmVal + " in\n" + " Fuel: " + fuelWeightVal + " lbs @ " + fuelArmVal + " in"; var resultsText = "A36 Bonanza Weight & Balance Results:\n\n" + "Current Takeoff Weight: " + currentWeight + "\n" + "Current CG: " + currentCG + "\n\n" + "Details:\n" + " Empty Weight Moment: " + emptyMoment + "\n" + " Payload Moment: " + payloadMoment + "\n" + " Total Moment: " + totalMoment + "\n\n" + assumptions; // Use the modern Clipboard API if available, otherwise fallback if (navigator.clipboard && navigator.clipboard.writeText) { navigator.clipboard.writeText(resultsText).then(function() { // Optionally show a confirmation message var copyButton = document.querySelector('.copy-button'); var originalText = copyButton.innerText; copyButton.innerText = 'Copied!'; setTimeout(function() { copyButton.innerText = originalText; }, 1500); }).catch(function(err) { console.error('Failed to copy text: ', err); // Fallback for browsers that don't support navigator.clipboard copyToClipboardFallback(resultsText); }); } else { // Fallback for older browsers copyToClipboardFallback(resultsText); } } function copyToClipboardFallback(text) { var textArea = document.createElement("textarea"); textArea.value = text; // Make the textarea invisible textArea.style.position = "fixed"; textArea.style.left = "-9999px"; textArea.style.top = "-9999px"; document.body.appendChild(textArea); textArea.focus(); textArea.select(); try { var successful = document.execCommand('copy'); var msg = successful ? 'Copied!' : 'Copy failed'; var copyButton = document.querySelector('.copy-button'); var originalText = copyButton.innerText; copyButton.innerText = msg; setTimeout(function() { copyButton.innerText = originalText; }, 1500); } catch (err) { console.error('Fallback: Oops, unable to copy', err); var copyButton = document.querySelector('.copy-button'); var originalText = copyButton.innerText; copyButton.innerText = 'Copy failed'; setTimeout(function() { copyButton.innerText = originalText; }, 1500); } document.body.removeChild(textArea); } // — Initial Calculation on Load — document.addEventListener('DOMContentLoaded', function() { // Initialize Chart if (typeof Chart !== 'undefined') { initializeChart(); } else { console.error("Chart.js library not found. Please ensure it's included."); // Optionally load Chart.js here if it's not globally available or handle the error } // Set default values and perform initial calculation resetCalculator(); // Add event listeners for real-time updates (optional, but good UX) var inputs = document.querySelectorAll('.calculator-section input[type="number"], .calculator-section select'); for (var i = 0; i < inputs.length; i++) { inputs[i].addEventListener('input', calculateWeightAndBalance); } });

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