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All of the infinitely many points whose ordinate is 2 less than its abscissa.
They developed the nuclear bomb that converts a small amount of mass to a huge amount of energy
CPUs, when given mathematical equations, apply the laws of mathematics to those equations. The equation a = a is true by the reflexive property of equality.
What role of operations that applies when you are solving an equation does not apply when your solving an inequality?"
The best plan for that particular equation would be to first subtract 15 from each side, and then apply the quadratic formula.
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.
This equation will tell you how much force is exerted by a bullet, for example, on a target.
Equation model?
If the mass and acceleration of the volleyball are known, the force acting on it can be found using the above equation.
All of the infinitely many points whose ordinate is 2 less than its abscissa.
They developed the nuclear bomb that converts a small amount of mass to a huge amount of energy
C. (2, 5) d. (-4, -13)
Yes, Einstein's equation E=mc^2 applies to black holes as well. In the context of black holes, mass is converted to energy as matter falls into the black hole. This energy can be observed in the form of radiation emitted by the black hole, known as Hawking radiation.
CPUs, when given mathematical equations, apply the laws of mathematics to those equations. The equation a = a is true by the reflexive property of equality.
What role of operations that applies when you are solving an equation does not apply when your solving an inequality?"
The best plan for that particular equation would be to first subtract 15 from each side, and then apply the quadratic formula.
Start with the equation:x = 11 Then, to make the equation more complicated ("multi-step"), you can do different manipulations, always on both sides of the equation; for example: * Add some number to both sides * Multiply both sides by the same number * Square both sides, or apply some other function to both sides (note: this may introduce additional solutions, depending on the properties of the function applied)