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If x is the unknown or variable in an equation it can have many possible maximum or minimum values
It really depends on which equation you're looking at
E=mc2 is derived from the equation for kinetic energy Ke = mv2. The mathematics and concepts of special and general relativity shows that the absolute maximum velocity anything can have is the speed of light. The maximum amount of energy anything can possess is simply calculated from its mass and this maximum velocity squared.
the maximum number of solutions to an euation is equal to the highest power expressed in the equation. 2x^2=whatever will have 2 answers
Yes. A linear equation is one in which the maximum power of a variable (usually x) is 1. In y = mx + b the x has a maximum power of 1. If b = 0, the equation becomes y = mx and x still has a maximum power of 1. The b is the y-intercept, ie it shifts the line up/down the y-axis and does not affect the shape of the graph, which stays a line: hence a linear equation.
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The vertex.
If x is the unknown or variable in an equation it can have many possible maximum or minimum values
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from the continuity equation A1v1 = A2v2 according to the continuity equation as the area decreases the velocity of the flow of the liquid increases and hence maximum velocity can be obtained at its throat
There is no maximum because y tends to + infinity as x tends to + or - infinity.
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the maximum number of solutions to a quadratic equation is 2. However, usually there is only 1.
It really depends on which equation you're looking at
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this means you cant go another farther. your equation will not allow you to compute any more numbers farther than the maximum distance.
An oscilloscope takes an electrical input signal and converts it into a visible trace on a screen - i.e. it converts electricity into light. An oscilloscope helps us to measure the voltage(maximum)....We can also find frequency from it by using a Equation.. We can use the maximum voltage in this equation i=v(maximum)sinѠt to find the current.