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What was Albert einstien?
Albert Einstein was a renowned physicist who developed the theory of relativity, which revolutionized our understanding of space, time, and gravity. He is also known for the famous equation E=mc^2, which relates energy to mass. Einstein was awarded the Nobel Prize in Physics in 1921 for his work.
When did Albert Einstein become a famous scientist?
Albert Einstein became a famous scientist in 1905 with the publication of his theory of special relativity. This revolutionary theory transformed our understanding of space, time, and energy, propelling Einstein to international fame.
Which famous Scientist was born in Germany on March 14th 1879?
Albert Einstein was born in Germany on March 14th, 1879. He is well-known for his theory of relativity and his equation E=mc^2, which describes the relationship between mass and energy. Einstein was awarded the Nobel Prize in Physics in 1921 for his contributions to theoretical physics.
How do scientist study the star?
Scientists study stars by observing their light, radiation, and other forms of energy using telescopes and other instruments. They analyze the spectra of light emitted by stars to understand their composition, temperature, and age. By observing stars over time, scientists can track changes and better understand their life cycles.
In a study of the sun what question might a applied scientist ask?
An applied scientists who studies the sun might ask how the energy is used in life. They may ask just how a plant is able to use the sun's energy to make food.
How did scientists apply Albert Einsteins equation e equals mc2?
Scientists applied Albert Einstein's equation E=mc^2 by using it to understand the relationship between energy and mass. This equation shows that mass can be converted into energy and vice versa, which has led to advancements in nuclear physics, such as in the development of nuclear weapons and nuclear power.
In the equation Emc2 what does the E stand for?
In Einsteins equation, E mc2, E is energy, m is mass, and c is the speed of light
What is einsteins equation?
E=mc2 E= energy M= mass C= speed of light 2= squared
What is the significance of Einsteins famous equation e mc2?
E=mc^2 states that mass and energy are interchangeable, and that a little bit of mass creates a lot of energy.
What does Einsteins famous equation e equals mc2 mean?
That equation is the equation that Albert Einstein came up with to describe how to calculate the speed of light. E = energy m = mass c = speed of light
What did energy mass and speed of light help scientist understand?
The equivalence of energy and mass.
How did scientists apply Einsteins equation E equals mc 2?
They developed the nuclear bomb that converts a small amount of mass to a huge amount of energy
What is the significance of einsteins famous equation Emc2?
E=mc^2 is Einstein's famous equation which shows the relationship between energy (E), mass (m), and the speed of light (c). It demonstrates that energy and mass are interchangeable, and that a small amount of mass can be converted into a large amount of energy. This equation is the foundation of nuclear reactions and understanding the potential of nuclear energy.
Where is the mass found in chemical change?
In the energy because of Einsteins equation: E=mc^2. In a chemical change, mass is converted to energy because of the loss in strong forces and weak forces in molecules.
What was Einsteins equasion?
Dr. Albert Einstein's Most Popular Equation Is E=MC² This Means E = energy M = mass C2 = speed of light squared
What do the letters stand for in einsteins equation?
The letters in Einstein's equation, E=mc^2, stand for energy (E), mass (m), and the speed of light (c) squared. This equation shows the equivalence of mass and energy, highlighting that energy can be converted into mass and vice versa.
What describes the concept of Einsteins equation emc2?
E=mc^2 is known as Einstein's famous equation, which describes the relationship between energy (E), mass (m), and the speed of light (c). It states that energy and mass are interchangeable and that a small amount of mass can be converted into a large amount of energy, as seen in nuclear reactions.
