Boiling a kettle typically releases around 0.15 kg (150 grams) of CO2 into the atmosphere each time, mostly from the energy it consumes during the boiling process.
At 0 Kelvin (absolute zero), a system is in its ground state with no thermal energy. Therefore, no energy can be removed from a system at 0 K as there is no energy present to be removed.
Energy produced from aerobic respiration is typically 18 times more efficient than energy produced from anaerobic respiration. This is because aerobic respiration generates more ATP molecules per glucose molecule compared to anaerobic respiration.
A glucose molecule is used.It contains about 2880 Kj
Assuming no external energy is added or lost, the total energy of a closed system remains constant. Therefore, after 1.1 hours, the total energy of the system will still be 7944 J.
different resource of energy in pakistan
False. The amount of energy produced for each kilogram of uranium is significantly higher than the amount of energy from a kilogram of coal. Uranium has a much higher energy density compared to coal, making it a more efficient and powerful source of energy.
The amount of energy produced by electrical energy depends on the source of the electricity. For example, a wind turbine or solar panel will produce a certain amount of energy based on their capacity and efficiency. The energy produced can be calculated in kilowatt-hours (kWh) or joules, depending on the context.
The amount of heat energy produced from electrical energy depends on the efficiency of the system. If we assume 100% efficiency, then all 3000 joules of electrical energy would be converted into heat energy. Thus, 3000 joules of electrical energy would produce 3000 joules of heat energy.
we can not tell how much wind is bein produced
73 % is electrical energy
less then 1%
According to the International Energy Agency, global coal production in 2020 was around 7.4 billion metric tons. The actual amount produced each year can vary due to factors such as economic conditions, energy demand, and environmental policies.
less then 1%
90% does they get
The useful energy produced by the motor can be found by multiplying the input energy by the efficiency. Therefore, 250 J * 0.4 = 100 J of useful energy produced by the motor.
The amount of thermal energy produced depends on the source of heat, the duration of heating, and the specific conditions of the system. To calculate the thermal energy produced, you would need to know the specific heat capacity of the material being heated, the mass of the material, and the temperature change that occurred. You can use the formula Q = mcΔT, where Q is the thermal energy produced, m is the mass of the material, c is the specific heat capacity, and ΔT is the temperature change.