no even it will increase the out put heat
Reduction in body weight, sleeplessness, buldging eyes, increased body temperatures, heat sensitivity, increased metabolism, excess hunger.
A person's metabolism significantly influences their body's physiological functions, including temperature, pulse, respiration, and blood pressure. Increased metabolic activity typically raises body temperature and pulse rate, as the body generates more heat and requires more oxygen and nutrients. Additionally, a higher metabolism can lead to increased respiratory rates to meet oxygen demands, while blood pressure may fluctuate due to changes in cardiac output and vascular resistance. Conversely, a slower metabolism may result in lower rates for these vital signs.
In an alternator, the load current is supplied by the stator and the excitation is applied to the rotor. When the power factor is low (lagging), more excitation is required to maintain rated output voltage at rated current. More excitation is also required to maintain rated output voltage with increased output current. Increased excitation current means increased rotor losses that must be dissipated as heat. (akash)
Yes, heat can increase metabolism in the body. When the body is exposed to heat, it can stimulate metabolic processes and increase energy expenditure. This can lead to a temporary increase in metabolism.
Energy output refers to the amount of energy that an organism or system expends or releases to perform work or maintain vital functions, such as movement, metabolism, and bodily processes. It is the energy that is used by the body for various activities or is lost as heat.
On average, an office worker generates around 100-400 watts of heat through body metabolism, electronic devices, and lighting. This heat output can increase depending on factors such as physical activity, clothing, and ambient temperature.
1.Turbine output is increased for same compressor work. 2.As more heat is supplied,thermal efficiency decreases.
Because they output (send out) heat.
A decrease in the overall heat transfer coefficient due to fouling or dirt buildup can reduce the efficiency of heat transfer in a system. This can lead to a decrease in the water flow rate as the system needs to compensate for the reduced heat transfer efficiency. Increased resistance to heat transfer can result in higher energy consumption and reduced performance of the system.
To calculate the output of a gas fire, you need to know the heat input rating of the gas fire in British thermal units per hour (BTU/hr) or kilowatts (kW). The heat output is typically a percentage of the heat input, commonly around 70-90%. You can calculate the heat output by multiplying the heat input by the efficiency percentage (e.g. heat output = heat input x efficiency percentage).
The longer an LED flashlight is turned on, the more heat it generates, which can reduce its light output due to temperature-related issues. Additionally, the battery's charge level may decrease over time, leading to a decrease in light output. However, within the LED's operational limits, the light output should remain relatively constant regardless of how long the flashlight is on.
Friction affects mechanical efficiency by reducing the amount of useful work output compared to the input work. High levels of friction can decrease efficiency by causing energy losses due to heat production and surface wear. By reducing friction through proper lubrication and design, mechanical efficiency can be increased.