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Provided the you know the mass of one of the objects ahead of time. If the see-saw were balanced then you would know the other object is the same mass as the object on the other end. If it is lighter, the other object would be higher, and if the other object were lower, that object would have more mass. LOL
No you see the object because the light refelects from the object into your eyes
no,we can not see all the forces that affect an object.
Direct vision is your central vision. It refers to how and what you see when looking straight at an object. Indirect vision refers to your peripheral vision, which means the things you see "out of the corner of your eye" or off to the side while you are looking directly ahead.
The object must be opaque, solid or liquid.
make sure you can stop in the distance you see ahead of you.
the speed you are travelling in a vehicle is faster than your headlights are allowing you to see in front of you. If your headlights were very dim and you could only see a very short distance ahead it would be very easy to overdrive your lights. Or like running as fast as you can, in the pitch dark, in a place you've never been before, with a flash light that is so dim you can barely see 12 inches ahead
be closer to the object than you think, since you are driving faster than your headlights can illuminate new objects that you encounter. brake now!
be closer to the object than you think, since you are driving faster than your headlights can illuminate new objects that you encounter. brake now!
be closer to the object than you think, since you are driving faster than your headlights can illuminate new objects that you encounter. brake now!
You should never over drive your headlights because you are then driving too fast to stop in time for hazards you see on the road.
It means driving at such a speed that you can't see upcoming road hazards because your stopping distance is greater than the effective illumination of your headlights.
the visibility
Provided the you know the mass of one of the objects ahead of time. If the see-saw were balanced then you would know the other object is the same mass as the object on the other end. If it is lighter, the other object would be higher, and if the other object were lower, that object would have more mass. LOL
When a cockatiel wants to see ahead, it simply turns its head sideways to look straight ahead.
steep drop, loop, incline, water, a object that is protruding into the space where my neck will be in mere seconds
The real question is What is ahead of you but you cant see it and the answer is The future.