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I can tell because the y-axis is both positive and negative.

I understand why you read the y-axis label the way you did.

The intercept of the line with the y-axis, is two times the contact resistance.

The same idea can be applied to both the y-axis and any other vertical axis.

This variety is the union of the x-axis and the y-axis.

The y-axis shows the true positive rate or sensitivity.

Each materials the line passes through, has the performance index listed on the y-axis.

After another period of time the skill once again ascends to a higher position on the y-axis.

Similarly, the y-axis is vertical with the positive direction upward.

Also you can now measure the positron's spin about the y-axis.

The total kinetic energy is preserved under a reflection in the y-axis.

Therefore it is common to label the y-axis with "arbitrary units".

It has two cusps and is symmetric about the y-axis.

Plot the rates of the four word classes for the Man'yōshū on the y-axis.

The ship was turning, shifting slowly around its y-axis.

The curve is symmetrical with respect to the y-axis.

The y-axis is rotated by 90 East about the celestial equator.

If two are used, they are placed symmetrically about the y-axis.

The centers of the constant-σ circles lie on the y-axis.

The skills start out at a high performance level and over time the skills descend to a lower position on the Y-axis.

This line must be followed by one line per pixel on the Y-axis.

With this point as center, draw a circle (red) tangent to the y-axis.

Taking the mirror image of this arm across the y-axis will yield the other arm.

Fixing or choosing the x-axis determines the y-axis up to direction.

Let us now analyze a specific case in which the two anchors are "symmetrical" along the y-axis.