Pubg Mortar Calculator

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PUBG Mortar Calculator – Master Mortar Shots in Battlegrounds


PUBG Mortar Calculator

Master the art of indirect fire in PUBG with our precise PUBG Mortar Calculator. Input your target’s distance and elevation, and let our tool provide the exact mortar elevation (in mils), flight time, and account for wind drift. Achieve pinpoint accuracy and surprise your enemies with devastating mortar strikes.

Mortar Trajectory Inputs



Distance from your position to the target. (Typical range: 50-500m)


Height difference between you and the target. Positive if target is higher, negative if lower. (e.g., -10 for target 10m below you)


Current wind speed affecting projectile. (0-20 m/s)


Direction of wind relative to your firing line (0° = headwind, 90° = crosswind from right, 180° = tailwind, 270° = crosswind from left).


Initial speed of the mortar shell. (Default: 70 m/s, typical for PUBG mortar)

Mortar Trajectory Results

Required Mortar Elevation
— Mils
Projectile Flight Time: — seconds
Horizontal Wind Drift: — meters
Vertical Wind Drift: — meters

How the PUBG Mortar Calculator Works:

This calculator uses a simplified ballistic trajectory model to determine the required launch angle (elevation) for your mortar. It accounts for target distance, elevation difference, initial projectile velocity, and gravity. Wind effects are calculated as a separate drift, indicating how much the projectile will be pushed horizontally and vertically from its intended path due to wind during its flight time.

Figure 1: Mortar Elevation and Flight Time vs. Distance (0m Elevation Difference, 0m/s Wind)


Table 1: Sample Mortar Ballistics (0m Elevation Difference, 0m/s Wind)
Distance (m) Elevation (mils) Flight Time (s)

What is a PUBG Mortar Calculator?

A PUBG mortar calculator is an essential tool designed to help players accurately aim and deploy the mortar in PlayerUnknown’s Battlegrounds. Unlike direct-fire weapons, the mortar requires players to calculate a trajectory, considering factors like distance, elevation, and even wind, to hit a target that is often out of sight. This calculator simplifies that complex process, providing precise firing solutions in mils, which is the in-game unit for aiming the mortar.

Who Should Use a PUBG Mortar Calculator?

  • Competitive Players: For those aiming for high ranks, precise mortar usage can turn the tide of a late-game circle.
  • Squad Leaders: Coordinating indirect fire support for pushes or defenses becomes much easier with accurate data.
  • New Mortar Users: Learning the mechanics of the mortar can be challenging; this tool provides a clear starting point.
  • Anyone Seeking an Edge: If you want to master every aspect of PUBG’s arsenal, understanding and utilizing the mortar effectively is key.

Common Misconceptions about PUBG Mortar Usage

Many players believe the mortar is purely luck-based or too difficult to use effectively. This is a misconception. While it has a learning curve, with the right tools like a PUBG mortar calculator, its accuracy can be surprisingly high. Another common mistake is ignoring elevation differences or wind, which can drastically alter the projectile’s impact point. This calculator addresses these variables, making mortar strikes more predictable and deadly.

PUBG Mortar Calculator Formula and Mathematical Explanation

The core of the PUBG mortar calculator relies on principles of projectile motion, adapted for game mechanics. We aim to find the launch angle (elevation) required to hit a target at a given horizontal distance and vertical height, considering the initial velocity of the mortar shell and the constant force of gravity.

Step-by-Step Derivation:

  1. Identify Knowns: We have the horizontal distance to target (d), vertical elevation difference (h), initial projectile velocity (v0), and gravitational acceleration (g).
  2. Projectile Motion Equations:
    • Horizontal distance: x = v0 * cos(θ) * t
    • Vertical distance: y = v0 * sin(θ) * t - 0.5 * g * t^2

    Where θ is the launch angle and t is the flight time.

  3. Solve for Flight Time (t): From the horizontal equation, t = d / (v0 * cos(θ)).
  4. Substitute into Vertical Equation: Substitute t into the vertical equation, setting x = d and y = h:

    h = v0 * sin(θ) * (d / (v0 * cos(θ))) - 0.5 * g * (d / (v0 * cos(θ)))^2

    h = d * tan(θ) - (g * d^2) / (2 * v0^2 * cos^2(θ))
  5. Use Trigonometric Identity: Recall that 1/cos^2(θ) = sec^2(θ) = 1 + tan^2(θ).

    h = d * tan(θ) - (g * d^2 / (2 * v0^2)) * (1 + tan^2(θ))
  6. Rearrange into Quadratic Form: Let T = tan(θ).

    (g * d^2 / (2 * v0^2)) * T^2 - d * T + (h + (g * d^2 / (2 * v0^2))) = 0

    This is a quadratic equation of the form A'T^2 + B'T + C' = 0, where:

    • A' = g * d^2 / (2 * v0^2)
    • B' = -d
    • C' = h + (g * d^2 / (2 * v0^2))
  7. Solve for T (tan(θ)): Using the quadratic formula: T = (-B' +/- sqrt(B'^2 - 4A'C')) / (2A'). For mortars, we typically select the higher trajectory angle.
  8. Calculate θ (radians): θ = atan(T).
  9. Convert to Mils: PUBG uses a 6400-mil system for a full circle. So, Elevation (mils) = θ * (6400 / (2 * Math.PI)).
  10. Wind Drift: Wind drift is approximated by multiplying the crosswind component by flight time and a game-specific wind effect multiplier. Headwind/tailwind components can also cause minor vertical drift.

Variables Table:

Table 2: PUBG Mortar Calculator Variables
Variable Meaning Unit Typical Range
d (Target Distance) Horizontal distance to the target meters (m) 50 – 500 m
h (Target Elevation Difference) Vertical height difference (target – player) meters (m) -100 – 100 m
v0 (Projectile Initial Velocity) Initial speed of the mortar shell meters/second (m/s) 60 – 80 m/s
g (Gravity) Acceleration due to gravity meters/second² (m/s²) 9.81 m/s² (constant)
Wind Speed Speed of the wind meters/second (m/s) 0 – 20 m/s
Wind Direction Angle of wind relative to firing line degrees (°) 0 – 359°
θ (Launch Angle) Required angle for mortar launch radians / mils Varies
t (Flight Time) Time projectile spends in air seconds (s) Varies

Practical Examples (Real-World Use Cases)

Let’s look at a couple of scenarios where the PUBG mortar calculator can be incredibly useful.

Example 1: Attacking a Squad on a Ridge

You’ve spotted an enemy squad dug in on a ridge 300 meters away. They are approximately 15 meters higher than your position. There’s a light crosswind from your right at 5 m/s.

  • Inputs:
    • Target Distance: 300 meters
    • Target Elevation Difference: 15 meters
    • Wind Speed: 5 m/s
    • Wind Direction: 90 degrees (crosswind from right)
    • Projectile Initial Velocity: 70 m/s
  • Outputs (approximate):
    • Required Mortar Elevation: ~1050 mils
    • Projectile Flight Time: ~6.5 seconds
    • Horizontal Wind Drift: ~3.2 meters (to the left)
    • Vertical Wind Drift: ~0 meters
  • Interpretation: You would set your mortar to 1050 mils. Knowing the horizontal drift, you’d aim slightly to the right of your target to compensate for the wind pushing the shell left. The 6.5-second flight time gives you an idea of how long the enemy has to react.

Example 2: Mortaring a Building in a Valley

An enemy is holed up in a building 180 meters away, located in a small valley, making them 10 meters lower than your position. There’s a strong headwind at 10 m/s.

  • Inputs:
    • Target Distance: 180 meters
    • Target Elevation Difference: -10 meters
    • Wind Speed: 10 m/s
    • Wind Direction: 0 degrees (headwind)
    • Projectile Initial Velocity: 70 m/s
  • Outputs (approximate):
    • Required Mortar Elevation: ~700 mils
    • Projectile Flight Time: ~4.5 seconds
    • Horizontal Wind Drift: ~0 meters
    • Vertical Wind Drift: ~4.5 meters (short)
  • Interpretation: Set your mortar to 700 mils. The headwind will significantly reduce the range, causing the shell to land short. You’d need to aim further than the target distance or adjust your elevation slightly higher to compensate for the vertical drift. This highlights the importance of understanding wind effects, especially head/tail winds, which can impact range.

How to Use This PUBG Mortar Calculator

Using the PUBG mortar calculator is straightforward, but precision in your inputs is key to accurate results.

Step-by-Step Instructions:

  1. Determine Target Distance: Use your in-game map, pings, or rangefinder scopes (like the 8x or 15x) to get an accurate distance to your target in meters. Enter this into the “Target Distance” field.
  2. Estimate Target Elevation Difference: This is crucial. Observe your target’s position relative to yours. If they are uphill, enter a positive value (e.g., 20 for 20 meters higher). If they are downhill, enter a negative value (e.g., -10 for 10 meters lower). Visual estimation or map contour lines can help.
  3. Input Wind Speed: PUBG doesn’t explicitly show wind speed, but you can often infer it from environmental cues (trees swaying, dust effects). For competitive play, some third-party tools or community observations might provide estimates. If unsure, start with 0.
  4. Input Wind Direction: This is relative to your firing line. If the wind is blowing directly towards you (headwind), it’s 0 degrees. If it’s blowing from your right, it’s 90 degrees. From behind (tailwind) is 180 degrees, and from your left is 270 degrees.
  5. Verify Projectile Initial Velocity: The default value of 70 m/s is a common approximation for the PUBG mortar. Unless you have specific data for a different mortar variant or game update, stick with the default.
  6. Click “Calculate Mortar Shot”: The calculator will instantly process your inputs.

How to Read Results:

  • Required Mortar Elevation (Mils): This is your primary output. Adjust your in-game mortar’s elevation dial to this value.
  • Projectile Flight Time (seconds): This tells you how long the shell will be in the air. Useful for predicting enemy movement or coordinating with teammates.
  • Horizontal Wind Drift (meters): This indicates how far left or right the shell will be pushed by crosswinds. If it says “+5 meters,” the shell will drift 5 meters to the right. You’ll need to aim 5 meters to the left of your target to compensate.
  • Vertical Wind Drift (meters): This shows how much headwind/tailwind will affect the range. A positive value means it will land further, a negative value means it will land shorter. This is a secondary effect for mortars but can be significant in strong winds.

Decision-Making Guidance:

Always consider the flight time. For longer shots, enemies have more time to move. Use the wind drift to adjust your aim point, not your elevation. Practice in custom games to get a feel for how these numbers translate in-game. The PUBG mortar calculator is a guide; in-game experience refines your intuition.

Key Factors That Affect PUBG Mortar Calculator Results

Understanding the variables that influence mortar trajectory is crucial for mastering indirect fire in PUBG. The PUBG mortar calculator takes these into account, but knowing their impact helps you make better in-game decisions.

  • Target Distance: This is the most significant factor. As distance increases, the required elevation angle generally increases, and flight time extends. Mortars have an effective range, typically up to 500 meters in PUBG.
  • Target Elevation Difference: Firing uphill requires a lower elevation angle than firing downhill for the same horizontal distance. A positive elevation difference (target higher) means the shell needs to travel less vertically relative to its launch point, thus a slightly flatter trajectory. Conversely, a negative difference (target lower) requires a steeper trajectory.
  • Projectile Initial Velocity: This is a fixed characteristic of the mortar in PUBG. A higher initial velocity would result in a flatter trajectory and shorter flight time for a given distance, requiring less elevation. Our calculator uses a standard value for the PUBG mortar.
  • Gravity: A constant force pulling the projectile downwards. While not an input you change, it’s fundamental to all ballistic calculations. The game’s gravity might slightly differ from real-world 9.81 m/s², but for practical purposes, this value is used.
  • Wind Speed and Direction: Wind is a critical external factor. Crosswinds push the projectile horizontally, requiring a lateral aim adjustment. Headwinds reduce the effective range (causing the shell to land short), while tailwinds increase it (causing it to land long). The calculator provides drift values to help compensate.
  • Air Resistance (Drag): While not an explicit input in this simplified calculator, air resistance is a real-world factor that slows projectiles and affects their trajectory. Game physics often simplify or omit complex drag calculations. Our calculator assumes a consistent projectile behavior, but in reality, drag would slightly alter the flight path, especially for longer distances.

Frequently Asked Questions (FAQ) about the PUBG Mortar Calculator

Q: Is the PUBG Mortar Calculator 100% accurate to in-game physics?

A: Our PUBG mortar calculator uses a robust ballistic model that closely approximates PUBG’s in-game physics. While game engines can have minor nuances or simplifications not fully captured, this calculator provides highly accurate and actionable data for most scenarios, significantly improving your mortar precision.

Q: How do I find the target’s elevation difference in PUBG?

A: Estimating elevation difference can be tricky. Use the contour lines on your map, look for visual cues (e.g., if the target is on a hill or in a valley), or use the height of known objects (buildings, trees) as reference. Practice in custom games will improve your estimation skills.

Q: What if the target is moving?

A: The PUBG mortar calculator provides static trajectory data. For moving targets, you’ll need to “lead” your shot. Use the calculated flight time to estimate where the target will be when the shell lands and aim accordingly. This requires practice and anticipation.

Q: Can I use this calculator for other projectile weapons in PUBG?

A: This specific PUBG mortar calculator is tailored for the mortar’s unique ballistics. Other weapons like grenades or crossbows have different initial velocities and trajectories. We offer other specialized calculators for those weapons, such as a PUBG grenade calculator.

Q: What is “mils” and why does the calculator use it?

A: “Mils” (milliradians) are a unit of angular measurement used in military optics and artillery. In PUBG, the mortar’s aiming reticle uses mils to indicate elevation. Our calculator provides the output in mils to directly correspond with the in-game aiming system, making it easy to apply the results.

Q: What happens if my target is out of range?

A: If the target distance or elevation difference makes it impossible for the mortar to reach, the calculator will indicate that the target is “Out of Range” or provide an error message. The PUBG mortar typically has an effective range of up to 500 meters.

Q: How important is wind in PUBG mortar shots?

A: Wind can be very important, especially for longer shots. A strong crosswind can push your shell several meters off target, while a headwind or tailwind can significantly alter its landing distance. Always try to account for wind if present.

Q: Can I use this calculator on my phone while playing?

A: Yes, this PUBG mortar calculator is designed to be fully responsive and mobile-friendly. You can easily access it on your smartphone or tablet while playing to get quick calculations.

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