No.
Try to created a table or a graph for the equation:
y = 0 when x is rational,
and
y = 1 when x is irrational for 0 < x < 1.
Remember, between any two rational numbers (no matter how close), there are infinitely many Irrational Numbers, and between any two irrational numbers (no matter how close), there are infinitely many rational numbers.
No. A quadratic equation always has a second derivative that is a constant. For example -3x2 + 10x - 2 first derivative -6x + 10 second derivative -6
Identity equation
Seems to me like if it's not always true, then it's no equation.
Always. Every ordered pair is the solution to infinitely many equations.
no
The derivative of a quadratic function is always linear (e.g. the rate of change of a quadratic increases or decreases linearly).
In order to find the number of MOLES, you must find the relation to said MOLES. Always remember to balance the equation to determine the coefficients. That would be in order to find the relation between them.
yes.
No. A quadratic equation always has a second derivative that is a constant. For example -3x2 + 10x - 2 first derivative -6x + 10 second derivative -6
Google Translate is okay, but not always accurate.
In math, an equation that is always true is called an identity.
salus semper - safety always
Identity equation
Seems to me like if it's not always true, then it's no equation.
Always. Every ordered pair is the solution to infinitely many equations.
154a - 5 is not an equation, as there is no relation between two unknowns, or an unknown or a known. But to answer your question, 5 is always equal to 5, except when 5 is a constant function, in which case it is a function which is always equal to 5, but is not 5 itself - because 5 itself is a scalar while the function 5 is a function.
In Google Translate it is translated to 'have.' However google translate is not always accurate but avoir means 'to have.'