Shutter Speed to Stop Motion Calculator
Calculate Shutter Speed to Stop Motion by entering distance and time. Get pace per mile or kilometre, projected finish times, and split breakdowns.
Formula
Shutter Speed = Acceptable Blur (mm) รท Image Motion Rate (mm/s)
The image motion rate on the sensor equals (focal length / subject distance) ร subject speed. The required shutter speed is the acceptable blur (in mm on the sensor) divided by this rate. Faster subjects, closer distances, and longer focal lengths all require faster shutter speeds to freeze motion.
Worked Examples
Example 1: Freezing a Soccer Player Mid-Sprint
Problem: A soccer player is running at 25 km/h, 20 meters from the camera. Using a 200mm lens on a full-frame camera. Maximum 1 pixel of blur.
Solution: Speed: 25 km/h = 6.94 m/s\nFocal length: 200mm, Distance: 20m\nImage motion rate: (200 / 20000) ร 6944 = 0.0694 mm/s on sensor\nWait โ let's use mm: (200mm / 20000mm) ร 6940mm/s = 69.4 mm/s = 0.0694 m/s\nAcceptable blur: 1 pixel ร 0.005mm = 0.005mm\nShutter speed: 0.005 / 69.4 = 1/13880s\nNearest standard: 1/8000s (fastest available)\nEstimated ISO needed: ~1600 in bright sun
Result: Required: ~1/14000s | Recommended: 1/8000s | May need 2px blur tolerance โ 1/4000s
Example 2: Bird in Flight with Telephoto Lens
Problem: A bird flying at 50 km/h, 30 meters away. Using 500mm on an APS-C (1.5x crop) camera. Allow 2 pixels of blur.
Solution: Speed: 50 km/h = 13.89 m/s\nEffective FL: 500 ร 1.5 = 750mm (for framing, use actual 500mm for calculation)\nImage motion rate: (500 / 30000) ร 13890 = 231.5 mm/s on sensor\nAcceptable blur: 2 ร 0.005mm = 0.01mm\nShutter speed: 0.01 / 231.5 = 1/23150s\nNearest standard: 1/8000s (max on most cameras)\nWith 2px tolerance: still need ~1/8000s minimum\nPractical recommendation: 1/2000s-1/4000s with 5-10px blur tolerance
Result: Required: ~1/23000s (impossible) | Practical: 1/2000-1/4000s with some blur
Frequently Asked Questions
How do I determine the right shutter speed to freeze motion?
The right shutter speed to freeze motion depends on four key factors: the speed of the subject, the distance from the camera to the subject, the focal length of the lens, and the acceptable amount of blur in pixels. Faster subjects require faster shutter speeds, closer subjects need faster speeds than distant ones (because they appear to move across the frame more quickly), and longer focal lengths magnify the apparent motion. The fundamental formula calculates the image motion rate on the sensor: (focal length / distance) ร subject speed, then divides the acceptable blur by this rate. As a rule of thumb, to freeze a walking person at moderate distance, 1/250s is usually sufficient. For sports and action, 1/1000s or faster is recommended. For motorsports and birds in flight, you may need 1/2000s to 1/4000s. The direction of motion matters too โ subjects moving directly toward or away from the camera need slower shutter speeds than those moving across the frame.
What is the relationship between focal length and motion blur?
Focal length directly affects the apparent size and motion of subjects in your image. A longer focal length magnifies the subject, which also magnifies any motion blur proportionally. If a subject produces 1 pixel of blur at 50mm, it will produce approximately 2 pixels of blur at 100mm (at the same shutter speed and distance). This is because the image motion rate on the sensor equals (focal length / distance) ร subject speed. Doubling the focal length doubles the image motion rate. This is why wildlife photographers using 500mm or 600mm lenses need extremely fast shutter speeds like 1/2000s or faster, even for relatively slow-moving animals. Crop sensor cameras effectively multiply the focal length by their crop factor (1.5x for APS-C, 2x for Micro Four Thirds), further increasing the required shutter speed. A common guideline is the reciprocal rule: your minimum shutter speed for stationary subjects should be 1/(effective focal length) to avoid camera-shake blur.
How does subject distance affect the required shutter speed?
The distance between your camera and the subject has a significant inverse effect on the required shutter speed. A closer subject appears to move across your camera's field of view much faster than an identical subject farther away, even though both are traveling at the same actual speed. For example, a car traveling at 100 km/h at 10 meters away requires roughly 10 times faster shutter speed than the same car at 100 meters. This is because the angular velocity (how fast the subject moves across your frame in degrees per second) is inversely proportional to distance. In the formula, the image motion rate equals (focal length / distance) ร speed, so doubling the distance halves the required shutter speed. Street photographers shooting subjects at 3-5 meters need much faster shutters than sports photographers shooting from 50+ meters. Understanding this relationship helps you plan your camera settings before the action starts.
When should I intentionally use motion blur instead of freezing motion?
Intentional motion blur is a powerful creative technique that conveys speed, energy, and dynamism in photographs. Panning is the most common technique: you track a moving subject with a slow shutter speed (1/30s to 1/125s), keeping the subject relatively sharp while the background becomes a streaked blur, conveying a strong sense of speed. This works beautifully for motorsports, cycling, and running subjects. Long exposure motion blur (1/4s to several seconds) can create smooth water effects in waterfalls and oceans, light trails from vehicles at night, and ghost-like effects with moving people in busy scenes. For creative photography, try shutter speeds between 1/15s and 1/2s to capture motion trails of dancers or athletes. The key is experimentation โ take multiple shots at different shutter speeds. A tripod is essential for long exposures to keep stationary elements sharp. Neutral density filters allow slow shutter speeds even in bright daylight.
Is my data stored or sent to a server?
No. All calculations run entirely in your browser using JavaScript. No data you enter is ever transmitted to any server or stored anywhere. Your inputs remain completely private.
Is Shutter Speed to Stop Motion Calculator free to use?
Yes, completely free with no sign-up required. All calculators on NovaCalculator are free to use without registration, subscription, or payment.