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What else can I help you with?
The ratio output power to input power in percent is called?
B. Efficiency
How do you find the input power in the electric efficiency formula if you have the output power and the efficiency percent?
Output equals efficiency times input; in formula, Ot = Ef x In and so In = Ot/Ef. To calculate the original input, divide the output by the efficiency.
Do you round off when using output power formula?
Yes, you do.
Efficiency can be express mathematically as?
Efficiency = Output/Input. This is usually expressed as a percentage but may be given in the form of a ratio.Another AnswerEfficiency is output power divided by input power, normally expressed as a percentage.
What is the standard power of apc 1500?
The APC 1500 has a standard power of 865 watts/1500 VA. The APC 1500 has an output of 120V and an output of 120v. The specifics of the model can be found on the official website.
What is the average power output of cyclists during the Tour de France?
The average power output of cyclists during the Tour de France is around 400 watts.
What opportunities does Clinical research courses offer?
The output signal-to-noise ratio is defined as the ratio of the average output signal power to the average output noise power. From Equation (2.140), we see that the message component in the discriminator output, and therefore the low-pass filter output, is
How much weight will you lose if you took 3 spinning classes in a row?
To answer this question, we need : 1. Your body weight 2. the average power output during the 3 classes 3. Time effort
How much is 1200 rms equal to watts?
RMS (Root Mean Square) value for power is equivalent to the average power output. Therefore, if a device has a power rating of 1200W RMS, it will output an average power of 1200 watts.
What is the power output, measured in watts, of a lightning strike?
The power output of a lightning strike can vary, but on average, it is around 1 billion watts.
What is the average output pressure for car Power Steering Pump?
1000psi
How can I calculate the power to weight ratio of a vehicle?
To calculate the power-to-weight ratio of a vehicle, divide the vehicle's power output (in horsepower or watts) by its weight (in pounds or kilograms). This ratio indicates how much power the vehicle has relative to its weight, which can affect its performance and efficiency.
Which insect is known as the greatest power lifter?
ant
How can one determine the power to weight ratio of a vehicle?
To determine the power to weight ratio of a vehicle, you need to divide the vehicle's power output (in horsepower or kilowatts) by its weight (in pounds or kilograms). This ratio helps to understand how much power the vehicle has in relation to its weight, which can affect its performance and efficiency.
A weight lifter has lifted 150 kg to a height of 2 m. He now lowers it carefully to the floor in 5 seconds. How much power is used Remember the force of an object's weight mass and times gravity.?
The work done in lowering the weight is equal to the force of gravity (150 kg * 9.8 m/s^2) times the distance moved (2 m). This gives us the total work done. To calculate power, we divide this work by the time taken (5 seconds). This gives us the power used by the weight lifter in lowering the weight.
A weightlifter is able to lift 250 kg 2.00 m in 2.00 seconds What is his power output?
Power output can be calculated using the formula: Power = Work / Time. The work done in lifting the weight is equal to the gravitational force (weight) multiplied by the height lifted: Work = Force × Distance = (250 kg × 9.81 m/s²) × 2.00 m = 4905 J. Therefore, the power output is 4905 J / 2.00 s = 2452.5 W. So, the weightlifter's power output is approximately 2453 watts.
What is the difference between weighted average power and normalized power in cycling performance analysis?
Weighted average power in cycling performance analysis is the average power output taking into account the varying intensity levels during a ride, giving more weight to higher intensity efforts. Normalized power, on the other hand, is an estimate of the power that could be sustained for the same physiological cost if the effort was constant, providing a more accurate representation of the overall effort level.
