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Two locations less than 0.5 mm apart could not be marked separately.

Q: What best explains why points cannot have a diameter of 0.5 mm?

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Points have no dimensions - no length, breadth or height. At 0.5 mm they are no longer a point but a blob (or a very small disk).

The circumstances of a circle are that it is a perfectly round shape and that its perimeter is better known as its circumference.

A scatter plot would be best for non-related data points. A line graph would be best for related data points.

The circumference of a circle that has a diameter of 6.75 feet is about 21.2 feet.

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Related questions

A point has o size. It is a mathematical concept with no length, width, depth, height.

Points have no dimensions - no length, breadth or height. At 0.5 mm they are no longer a point but a blob (or a very small disk).

A mathematical point is only a location, and has no dimensions. Of course, when you mark the point on paper, it has the same diameter as the lead in your pencil, or the ball on your BIC.

Two Locations Less Then 1mm Apart Could Not Be Marked Separately

WikiAnswers does not know you so we cannot tell you which word best explains you. You'll have to decide for yourself which of the words you are looking at is the best fit for you.

Some goals are incompatible with each other.

You cannot download DSi points. You will have to buy the point card from a store (such as Best Buy or Future Shop) and then enter the code to get DSi points.

There are not enough resources to produce all of the goods and services that everyone wants.

The available resources cannot be used to pursue every goal that each individual has.

No matter how much supply is produced, people's demands will always increase to exceed supply.

The available resources cannot be used to pursue every goal that each individual has.

Having multiple steps in a signal transduction pathway allows for amplification and integration of signals from other pathways, increasing the specificity and sensitivity of the response. This multi-step process also offers multiple points for regulation, enabling fine-tuning of the cellular response based on the inputs received from various signaling pathways.