Like - um - in an infinite number of ways, I guess. First: you can take a random point on the line and BAM. You have two rays with common point. Pointing in opposite directions. Infinitely unveiling [?]. Second: take two arbitrary points A and B from a given line or just freely in space. Create a ray from A to B and beyond. If you don't like what you've got, create a ray from B to A and beyond. Two points are enough to define a ray, and I can't think of anything better. Ditto.
ray
No. A ray has one endpoint and extends into infinity from that point.
false A ray has one endpoint.
True
It beeps the bop into the boob
Symbiosis The answer for this question is called mutualism.
Technically, yes: correctly and incorrectly. However, while (line)BD and (line)DB are the same line, (ray)AO and (ray)OA are distinct, and only one of those would be correct for any given ray (the origin is given first, followed by a point on the ray).
An essay question can benefit a student in two ways: It can encourage the student to think more clearly, as to express the idea in writing, and hence it can also sharpen the student's writing skills.
All light waves behave in two ways, simultaneously. Light of any kind acts as both a wave and a ray.
Remoras and Sharks Clownfish and Sea Anenome Chimpanzees each bugs of eachother
Two ways that volcanic eruption can benefit people include the creation of land mass and of energy. Volcanic steam and heat can be used to produce energy.
The citizens of Panem don't exactly benefit from the Hunger Games. The only way citizens can benefit is if the tribute from their district wins. By their tribute winning, the district gets a party of sorts and extra food.
No ---two ways AROUND it No two ways about it
No. They are two different rays.
The two rays involved in reflection are the incident ray, which is the ray of light approaching the reflective surface, and the reflected ray, which is the ray of light that bounces off the surface after reflection.
Like - um - in an infinite number of ways, I guess. First: you can take a random point on the line and BAM. You have two rays with common point. Pointing in opposite directions. Infinitely unveiling [?]. Second: take two arbitrary points A and B from a given line or just freely in space. Create a ray from A to B and beyond. If you don't like what you've got, create a ray from B to A and beyond. Two points are enough to define a ray, and I can't think of anything better. Ditto.