There are two parts to any roof - the covering and the framing - both have multiple parts, and so does the form/shape of the roof. The covering also brings in lots of different parts - thatch compared to pan-tiles or shingles for instance, and when the frame in particular was made also affects what parts are present, so in total there is a vast number of names/parts to roofs in general. Had you one type and stlye and covering and age in particular?
frame or the walls.
I am guessing the walls
if it is a fan with a light, the bolt that holds up the cover needs to be tightened
The strip is a strip of what they are mining. It holds up the ceiling of the mine. Without it the ceiling would collaspe . Also they save money by not going through expensive and risky means to support the walls and ceiling themselves with wood ,steal, ect.
it holds the tension of the dome
you go up into the ceiling then go and find it then get it.
Ceiling height varies, 8'3" and up
A ceiling of a building is the thing above the floor, that you see when you look up.
sky, ceiling...
The debt ceiling has been raised 90 times since 1939 (including August 2011). Reagan holds the record - 18 times.
A raked ceiling or cathedral ceiling is said to be better than a flat ceiling because of the echos in the rooms. It will really be up to the owner of the house and what they prefer.
You may not have a ground wire in your older housewiring. Hook it somewhere to the metal plate that holds the fan to the box.
Stalactites and stalagmites are similar because they are both cave formations that are made out of limestone from the process of water dripping. They are different because a stalactite forms from the ceiling of a cave, and a stalagmite forms from the ground up. One way to remember this is the "C" in stalactite stands for ceiling- it holds tight to the ceiling, and the "G" in stalagmite stands for the ground where it forms. After many years, stalactites and stalagmites can end up touching each other and they form another cave formation called a column.
Angular momentum holds up the moon.