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What is a large energy producing object in space made up of gases?
A large energy-producing object in space made up of gases is a star, such as our Sun. Stars are primarily composed of hydrogen and helium and generate energy through nuclear fusion, where hydrogen atoms combine to form helium, releasing vast amounts of energy in the process. This energy powers the star and emits light and heat, influencing the surrounding space and any nearby celestial bodies.
Is the white dwarf a large star that is relatively cool?
No it is a small star (about the size of Earth) that is VERY dense and quite hot (although it is not producing new energy).
Why do they call a nebula a nebula?
"Nebula" comes from the Latin word for "cloud." Nebulae are large clouds of dust, hydrogen, helium, and other gases in space. The term was originally used to describe any celestial object with a hazy appearance.
What is a large object that moves around a star?
A planet is a large object that moves around a star in a solar system.
What are the problems involved with the producing or using the solar energy resource?
Producing and using solar energy involves several challenges, including high initial costs for solar panel installation and the need for significant land area for large-scale solar farms. Additionally, solar energy is intermittent, as it relies on sunlight, leading to fluctuations in energy production that require effective energy storage solutions or backup systems. Environmental concerns also arise from the manufacturing and disposal of solar panels, which can involve hazardous materials. Lastly, the integration of solar energy into existing energy grids can pose technical and regulatory hurdles.
What a large energy producing object in space that is made of gases undergoing nuclear reactions?
star
What is large energy producing object in space that is made of gases undergoing nuclear reactions?
star
What is a large energy producing object in space made up of gases?
A large energy-producing object in space made up of gases is a star, such as our Sun. Stars are primarily composed of hydrogen and helium and generate energy through nuclear fusion, where hydrogen atoms combine to form helium, releasing vast amounts of energy in the process. This energy powers the star and emits light and heat, influencing the surrounding space and any nearby celestial bodies.
Which object forms the contraction of a large sphere of gases causing the nuclear fusion of lighter elements into heavier elements?
A star is the object that forms from the contraction of a large sphere of gases, leading to nuclear fusion of lighter elements into heavier elements. This process releases energy in the form of light and heat.
Which object forms by the contraction of a large sphere of gases causing the nuclear fusion of lighter elements into heavier elements?
A star forms by the contraction of a large sphere of gases. This contraction causes the nuclear fusion of lighter elements into heavier elements, releasing energy in the process.
What are some advantages of producing energy through fission?
Amount of energy produced is very large. This energy can be utilised.
Why does a large object absorb thermal energy faster than a smaller object?
A greater surface area allows for greater energy transfer.
Can an object have large voltage but a very low potential energy. Why?
Yes.
In the mitochondria the smaller molecules reacts producing what?
carbon dioxide, water and large amounts of energy
Which object forms by the contraction of a large sphere of gases causing the nuclear fusion of lighter elements into heavier element?
A star
Which has more kinetic energy- A small object or a large object moving at the speed of 25 mph?
The large object moving at 25 mph would have more kinetic energy compared to the small object, assuming they have the same mass. Kinetic energy is dependent on both mass and velocity, so in this case, the larger object would have more kinetic energy due to its greater mass.
Can an object have large voltage but a very low potential energy and why?
Yes. The potential energy in this case is the product of the voltage and the charge.
