He doesn't need one, the reactor core is what powers the suit, whether it keeps the person alive or not, doesn't matter, it's simply a power source. like in no 1 when Obadiah Stayne uses the arc reactor mark 2 he uses essentially to power his suit, but Tony Stark uses it for 2 reasons
1: To keep him alive
2: To power the suit
Yes, the majority of Power Rangers are from Earth however ones such as the Alien Rangers along with Trey, Andros, Zhane, Maya, Karone, Trip and Tyzonn are not from Earth. The majority of the Power Rangers' powers are not from Earth as well since the Zeo Crystal comes from another alien race, the Turbo powers are created apparently by Zordon since their source is his home planet, the Quasar Sabers are an alien source and the Dino Gems are from an asteroid.
The Rowdyruff boys are made to destroy the Powerpuff girls, but since they are so similar to each other; in a way they are made for each other.
Her daughter was born with a hole in her heart. She has since had an operation to fix her heart.
The source(s) of Mighty Mouse's powers are never clearly defined . The audience assumes that since Mighty Mouse is a parody of Superman that he derives his powers for extraterrestial reasons . (Ralph Bakshi's version had him sniffing 'cheese' for a power boost.)
Since 14abc is a factor of 28a2b2c3, it is automatically the GCF of this problem.
Your main energy source is the oxidation of hydrogen. Without oxygen you'd have a maximum of about 16 % of your present energy - unfortunately you'd be dead since your brain and your heart both need the oxidation power constantly.
Your main energy source is the oxidation of hydrogen. Without oxygen you'd have a maximum of about 16 % of your present energy - unfortunately you'd be dead since your brain and your heart both need the oxidation power constantly.
Your main energy source is the oxidation of hydrogen. Without oxygen you'd have a maximum of about 16 % of your present energy - unfortunately you'd be dead since your brain and your heart both need the oxidation power constantly.
The mechanical power of the human heart is ~1.3 watts. It takes a much higher rate of energy turnover (~13 watts) to provide this mechanical power, since the mechanical efficiency of the heart is very low (less than 10%).
Since mermaids are entirely fictional creatures, they get their powers from whatever source the author of the story in question wants them to.
you get nothing that doesn't help him and you can't since you're asking
The source of energy in almost all nuclear power plants is fission or the splitting of the atom. There are a few experimental fusion power plants, (or the joining of the atoms), but, there are few of them, since the energy needed to produce fusion is extremly high, and only last a few seconds. Around 99.99% of nuclear power plants are fission power plants.
Foods are the source of vitamins and minerals required by a human body. Since heart is one of the vital part, you have to take good care of it. Eat leafy vegetables, fruits, fresh juices, and do regular exercise outdoor; contribute a lot to your heart wellness.
"Sustainable" in this context refers to the source of the energy. If the thermal power plant burns petroleum for example, it is not sustainable, since there is a fairly limited supply of petroleum.
Simply put, a transmission allows power to be sent from a power source, most often an engine or motor, to a drive mechanism. Transmissions use gears and a clutch to convert the speed of the power source into torque. A simpler transmission is often referred to as a gearbox since it is basically a box containing a configuration of gears.
I believe your question is : Can you use a 100 W rating LED in a 60 W power source (meant for lighting) If so, the answer is NO. Since 60 W power source can provide only 60 W. However if power source is 100 w capacity, you can use LED or any type lamp that has 100 W or less.
In electrical engineering, the maximum power (transfer) theorem states that, to obtain maximum external power from a source with a finite internal resistance, the resistance of the load must be made the same as that of the source. It is claimed that Moritz von Jacobi was first to discover the maximum power (transfer) theorem which is referred to as "Jacobi's law". The theorem applies to maximum power, and not maximum efficiency. If the resistance of the load is made larger than the resistance of the source, then efficiency is higher, since most of the power is generated in the load, but the overall power is lower since the total circuit resistance goes up. If the internal impedance is made larger than the load then most of the power ends up being dissipated in the source, and although the total power dissipated is higher, due to a lower circuit resistance, it turns out that the amount dissipated in the load is reduced.