If an object is smooth, it is less likely to incur drag or skin friction. Depending on what the object is, it may also be harder to grip.
Smooth objects are ice, lens, desk, plate, mirror, light bulb, Bowling ball, white board, water slide and/ or regular slides ect...................
HOPE THAT HELPS!
By removing the objects you choose to subtract from the group of objects.
Small objects that can be carried in the magnetic current.
Mass
The answer to this question is no. Radiation can occur when objects are not touching
When no momentum is exchanged with other objects/systems.When no momentum is exchanged with other objects/systems.When no momentum is exchanged with other objects/systems.When no momentum is exchanged with other objects/systems.
cup
Yes
paper
Most objects we use in daily life ( as smooth as they seem) are actually fairly rugged. Mirrors, are almost completely flat and smooth making them able to reflect the light that reflects off of you perfectly (or the object you are viewing)
J. H. Rieger has written: 'On the classification of news of piecewise smooth objects'
No. All materials have the slightest bit of friction. Even if an object may look smooth to the human eye, it has a microscopic jagged side. Even something as smooth as ice has a little friction
tang ina ng nanay mo by alejandro nicolas IV-Quezon
fur, cloth... go around your house and feel things that look soft or smooth to you and if they are soft then write them on your homework or whatever you need this answer for.
A [rectangular] box such as a matchbox, a book, a smooth brick, a CD case.
Amongst "regular" objects, a sphere, an ellipsoid, a paraboloid. A smooth but irregular lump of putty could qualify.
Because coordinate axes are a means of labeling and displaying mathematical objects, not mathematical objects themselves. Since they are labels, the terms "slope," "continuous," "smooth," etc. don't apply to them.
No, in fact the opposite is true, however colour does play a significant part, as a matte black perfect sphere would absorb more light than a bumpy mirror