The formula to determine speed is speed = distance / time. To determine the diameter of a circle, the formula is diameter = 2 x radius.
To determine speed using acceleration, you can use the formula: speed initial speed (acceleration x time). This formula takes into account the initial speed of an object and how much the speed changes over time due to acceleration. By plugging in the values for acceleration and time, you can calculate the speed of the object at any given moment.
To determine the maximum speed of a vehicle or object, you can use the formula: maximum speed square root of (2 x acceleration x distance). This formula takes into account the acceleration of the vehicle or object and the distance it travels. By plugging in the values for acceleration and distance, you can calculate the maximum speed it can reach.
The velocity ratio of a pulley system is the ratio of the rotational speed of the driving pulley to the driven pulley. It indicates how the speed of the driven pulley relates to the speed of the driving pulley. The formula is: Velocity Ratio = Diameter of driving pulley / Diameter of driven pulley.
Newton's rings can be used to determine the wavelength of light because the diameter of the rings varies with the wavelength of the light being used. By measuring the diameter of the rings, the wavelength of the light can be calculated using the formula for constructive interference.
Speed is the rate at which an object covers distance. It is typically calculated by dividing the distance traveled by the time taken to travel that distance. The formula for speed is speed = distance/time.
The formula to determine speed is Speed= wavelength*frequency
speed = wavelength x frequency
The formula for line speed is d * r * 1.1 = c. It is wherein d is the product diameter, r is the desired product rate, and c is the conveyor speed.
For a pulley, it is driver RPM x driver diameter = driven RPM x driven diameter. Keep in mind that the diameter you should use is the diameter where the belt is riding in the pulley. For instance, an A belt in an AB pulley will ride lower in the pulley than it would in an A pulley. For sprockets, the formula is the same, but replace the diameter with # teeth. It looks like this. driver rpm x # teeth of driver sprocket = driven RPM x # teeth of driven sprocket
because the chord can be determine by the diameter and the diameter can be determine by the chord.
To determine speed using acceleration, you can use the formula: speed initial speed (acceleration x time). This formula takes into account the initial speed of an object and how much the speed changes over time due to acceleration. By plugging in the values for acceleration and time, you can calculate the speed of the object at any given moment.
D(distance)/T(time)=V(velocity)
to determine the radius if you only have the diameter, you divided the diameter by 2. then there you have it ! you have the radius !
To calculate ship speed from the RPM of a marine engine, you can use the formula: [ \text{Ship Speed (knots)} = \frac{\text{RPM} \times \text{Propeller Diameter (in feet)} \times \text{Propeller Pitch (in feet)}}{60 \times 6076} ] Here, the propeller diameter and pitch are crucial, and the constants convert the units appropriately. The formula highlights the relationship between engine speed and the resultant speed of the vessel through water.
To determine the maximum speed of a vehicle or object, you can use the formula: maximum speed square root of (2 x acceleration x distance). This formula takes into account the acceleration of the vehicle or object and the distance it travels. By plugging in the values for acceleration and distance, you can calculate the maximum speed it can reach.
The velocity ratio of a pulley system is the ratio of the rotational speed of the driving pulley to the driven pulley. It indicates how the speed of the driven pulley relates to the speed of the driving pulley. The formula is: Velocity Ratio = Diameter of driving pulley / Diameter of driven pulley.
The formula to calculate the outside diameter of a circle is: outside diameter = diameter + (2 * thickness). This formula takes into account the thickness of the circle's material when calculating the overall dimension.