Calculate projectile motion easily with the Examples.com Projectile Motion Calculator. Input initial velocity and angle for precise results.

### Formulas:

**Range (R):** R = (v² * sin(2θ)) / g

**Maximum Height (H):** H = (v² * sin²(θ)) / (2 * g)

**Time of Flight (T):** T = (2 * v * sin(θ)) / g

#### Initial Velocity (v):

#### Launch Angle (θ):

Range |
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Maximum Height |
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## How to Use the Projectile Motion Calculator

### Step 1: Understand the Formulas

**Range (R)**: R=(v^{2}×sin(2θ))/g**Maximum Height (H)**: H=(v^{2}×sin^{2}(θ))/2g**Time of Flight (T)**: T=(2×v×sin(θ))/g

### Step 2: Select Calculation Type

**Dropdown Menu**: Ensure the dropdown menu is set to “Calculate Range and Maximum Height (Velocity & Angle)” for calculating projectile motion parameters based on initial velocity and launch angle.

### Step 3: Enter Initial Velocity

**Initial Velocity (v)**: Input the initial velocity of the projectile. Type the value directly into the input box labeled “Enter initial velocity.” Ensure you use the correct unit (e.g., m/s).

### Step 4: Enter Launch Angle

**Launch Angle (θ)**: Input the launch angle of the projectile. Type the value directly into the input box labeled “Enter launch angle.” Ensure you use the correct unit (e.g., degrees).

### Step 5: Calculate Range

**Range Button**: Click the purple “Range” button to calculate the range of the projectile. The result will be displayed in the selected unit (e.g., meters).

### Step 6: Calculate Maximum Height

**Maximum Height Button**: Click the purple “Maximum Height” button to calculate the maximum height reached by the projectile. The result will be displayed in the selected unit (e.g., meters).

### Step 7: View Results

- The calculator will display the calculated values for the range and maximum height of the projectile based on the entered initial velocity and launch angle.

## Examples of Projectile Motion Calculator

### Example 1: Calculating the Range and Maximum Height of a Football

Calculate the range and maximum height for a football kicked with an initial velocity of 25 m/s at a launch angle of 45°.

**Initial Velocity (v)**: 25 m/s**Launch Angle (θ)**: 45°**Formulas**: Range (R)=(25^{2}×sin(2×45))/9.8- Maximum Height (H)=(25
^{2}×sin^{2}(45))/2×9.8 **Calculation**: Range (R)=625×1/9.8=63.78 m- Maximum Height (H)=625×0.5/19.6=15.95 m
**Result**: The range is 63.78 meters and the maximum height is 15.95 meters.

### Example 2: Calculating the Range and Maximum Height of a Basketball Shot

Calculate the range and maximum height for a basketball shot with an initial velocity of 8 m/s at a launch angle of 60°.

**Initial Velocity (v)**: 8 m/s**Launch Angle (θ)**: 60°**Formulas**: Range (R)=(8^{2}×sin(2×60))/9.8- Maximum Height (H)=(8
^{2}×sin^{2}(60))/2×9.8 **Calculation**: Range (R)=64×√3/2/9.8=5.65 m- Maximum Height (H)=64×0.75/19.6=2.45 m
**Result**: The range is 5.65 meters and the maximum height is 2.45 meters.

### Example 3: Calculating the Range and Maximum Height of a Javelin Throw

Calculate the range and maximum height for a javelin throw with an initial velocity of 30 m/s at a launch angle of 35°.

**Initial Velocity (v)**: 30 m/s**Launch Angle (θ)**: 35°**Formulas**: Range (R)=(30^{2}×sin(2×35))/9.8- Maximum Height (H)=(30
^{2}×sin^{2}(35))/2×9.8 **Calculation**: Range (R)=900×0.94/9.8=86.63 m- Maximum Height (H)=900×0.33/19.6=15.13 m
**Result**: The range is 86.63 meters and the maximum height is 15.13 meters.

## Can I use the projectile motion calculator for different angles?

Yes, you can use the projectile motion calculator for any launch angle. Just input the desired angle in degrees, and the calculator will compute the results based on that angle.

## Can the projectile motion calculator handle vertical and horizontal launches?

Yes, the calculator can handle both vertical and horizontal launches. For a vertical launch, set the launch angle to 90°. For a horizontal launch, set the launch angle to 0°.

## How accurate are the results from the projectile motion calculator?

The results are accurate based on the input values and the assumptions of ideal projectile motion (no air resistance). Ensure that you enter correct and consistent data for precise calculations.

## Can the projectile motion calculator be used for real-world applications?

The projectile motion calculator provides theoretical values based on ideal conditions. For real-world applications, factors such as air resistance, wind, and other environmental conditions may need to be considered.

## Where can I find a reliable projectile motion calculator?

Reliable projectile motion calculators can be found on educational websites, physics-related resources, and specialized calculator tools like examples.com. Ensure that the calculator you choose is from a reputable source.

## Can I save or print the results from the projectile motion calculator?

Many online projectile motion calculators allow you to save or print the results. Look for a print or download option on the calculator interface to keep a record of your calculations.

## Is the projectile motion calculator available on mobile devices?

Many online projectile motion calculators are mobile-friendly and can be used on smartphones and tablets. Check the website or app for compatibility with your device.

## What should I do if the calculated values seem incorrect?

Double-check the entered initial velocity and launch angle values for accuracy. Ensure that the units are consistent and correctly entered. If the issue persists, consult additional resources or a professional.