When it has 4 equal sides and 4 equal right angles of 90 degrees
no.
ln(3) is a constant. If graphed, it would be a horizontal line. Its derivative is zero.
-3
A linear equation with an undefined slope is an equation where, when graphed, forms a vertical line. For example: when given 2 points: (2, 4) (2,7) ~ The x-values are the same, while the y-values differ, which would create a vertical line when the points are graphed
When it has 4 equal sides and 4 equal right angles of 90 degrees
The line must be solid if the inequality is strict (less than or greater than). It must be a dashed line if otherwise (less than or equal to, greater than or equal to).
It would depend on what you were measuring as to how it would be graphed (distance from starting point vs time, distance to a certain point vs time, horizontal location vs vertical location, etc).
no.
ln(3) is a constant. If graphed, it would be a horizontal line. Its derivative is zero.
-3
ln(3) is a constant. If graphed, it would be a horizontal line. Its derivative is zero.
x = 0 is the y-axis
The Sun would be at the center of any graph of the solar system.
The angle of the graphed slope changes with changes in speed.
Domains in algebra is basically listing the possible x-points on your graph. for example, you graphed the ordered pairs (2,1) (3,5) (8,7) your domain would be D:{2,3,8}. also, if you graphed a normal palabra(y = x^2) your domain would be D:{all real #s} because the numbers for the x-value is infinite.
A linear equation with an undefined slope is an equation where, when graphed, forms a vertical line. For example: when given 2 points: (2, 4) (2,7) ~ The x-values are the same, while the y-values differ, which would create a vertical line when the points are graphed