2.5 seconds. Here's how: Multiply the weight by the height change to determine the amount of work necessary: (2000 N)(10 M) = 20000 Newton meters, or 20000 Joules. Divide this by the power of 8000 Joules/sec to determine time of (20000 J) / (8000 J/s) = 2.5 seconds. If less than 8000 watts is used, then the denominator is smaller, so the time is longer.
The maximum temperature rating for fusible links typically ranges from 165°F to 500°F, depending on the specific application. It is crucial to select a fusible link with the appropriate temperature rating for the intended use to ensure safety and reliability in case of fire.
The maximum decibel rating that humans can hear without experiencing pain is around 120-130 decibels. Beyond this level, exposure to sound can result in discomfort, hearing damage, and potential long-term effects on hearing health.
The power rating of the machine can be calculated using the formula: Power = Work / Time. The work done is equal to the force applied (50kg * 9.8 m/s^2) multiplied by the distance (10 meters). Therefore, the power rating can be calculated as (50kg * 9.8 m/s^2 * 10m) / 5 seconds.
The maximum amount of current a conductor can carry continuously without exceeding its temperature rating is typically determined by the conductor's ampacity rating, which is based on factors such as the conductor material, insulation type, and ambient temperature. It is important to adhere to these ampacity ratings to prevent overheating of the conductor.
EMCR (Emission Control and Monitoring Requirements) is a regulatory framework that sets restrictions and guidelines for monitoring and controlling emissions from thermal power plants to reduce environmental pollution. This includes monitoring the release of pollutants like sulfur dioxide and nitrogen oxides, implementing emission control technologies, and reporting compliance with emission standards to regulatory authorities. Compliance with EMCR is crucial for thermal power plants to mitigate their impact on air quality and public health.
No current bro? Depends
The maximum current rating for the circuit breaker needed for a 60 amp electrical load is 60 amps.
The maximum current rating for the circuit breaker needed for a device that operates at 20 amps is 25 amps.
Capacitors used in electronic circuits need not have a minimum voltage rating of 25 volts. Electronic circuits powered by batteries at 12 volts and below should work fine with capacitors rated at 15 volts.
To calculate the minimum fuse rating needed for a 36W bulb on a 12V circuit, divide the wattage by the voltage (36W / 12V = 3A). Therefore, a minimum 3A fuse would be sufficient for a 36W bulb on a 12V circuit.
All transformers have a power rating given in kVA which determine the maximum load that can be connected to that transformer.
To find the minimum power rating of a resistor, you can use the formula ( P = I^2 \times R ). Given that the current ( I ) is 400 mA (or 0.4 A) and the resistance ( R ) is 100 ohms, the power is calculated as ( P = (0.4)^2 \times 100 = 16 ) watts. Therefore, the minimum power rating for the resistor should be at least 16 watts to handle the maximum current safely. It's advisable to choose a resistor with a higher rating for added safety and reliability.
We suggest the JX250/1 for minimum power and the JX500/1D for the maximum power rating. Feel free to call us to place your order 800-854-5821 Thank you
Maximum power rating describes the maximum power at which a device can operate without reaching an excessive temperature. For example, in the case of a resistor, if its maximum power rating is exceeded, then it may burn out.
The maximum rating or a VCB is 32 KV.The maximum curent rating is up to 3000 A.
The maximum amp rating for a device designed to handle a 10-2 amp rating is 10 amps.
That number refers to the maximum load rating(94) and the maximum speed rating (V)