A liquid has a constant volume but no fixed shape.
It increases very slightly, which is why a corroded nut and bolt are so hard to undo.
It all depends on the size of the three items - a metal cube with volume 1 cm3 will weigh far less than one of the bolts they used to attach the space shuttle to the launch pad, correct? And it also depends on the metals in question - an iridium cube will weigh more than a magnesium nut made from the same volume of metal, because iridium is very heavy and magnesium is much lighter. If you had these three objects all of the same metal and they all weighed the same, the cube would be smaller because a cube is a more compact shape than a nut or bolt.
It sounds like you are describing a pecan nut. Pecans are known for their oval shape, smooth thin shell, and are predominantly grown in the southern United States.
The pili shell has 3.2% moisture content, 11.9% volatile combustible matter, 11.1% ash and 77% fixed carbon.~Based on the book:"Pili Nut, Canarium Ovatum Engl" By Roberto E. Coronel
Prevailing torque nuts have a built-in feature that adds resistance during installation to prevent them from loosening due to vibration or other external forces. This design feature typically involves a non-circular shape of the nut or a deformed thread that increases the friction between the nut and the bolt. When the nut is tightened, this friction creates additional resistance, providing a locking mechanism that helps to keep the nut securely in place.
A kidney shape nut is a cashew nut. This is considered to be a riddle.
One method would be with water displacement. Fill a graduated cylinder with a known amount of water. Drop in the nut. Push below surface with wire, or something with negligible volume. Read volume, and subtract.
The density of the brass nut can be calculated using the formula: Density = Mass/Volume. Density = 34g / 4 cm³ = 8.5 g/cm³. Therefore, the density of the brass nut is 8.5 g/cm³.
A hexagonal nut has the shape of an equilateral hexagon
The weight of a hexagonal nut can be calculated using the formula: [ \text{Weight} = \text{Volume} \times \text{Density} ] To find the volume, you can approximate the nut as a cylinder or a combination of a cylinder and two hexagonal prisms, depending on its design. The density will depend on the material (e.g., steel, brass). The formula for volume will vary based on the specific geometry used in the calculation.
I got it. The nut is said to be stripped if it begins to lose its original shape (hex or other). This will make it difficult to grip the nut with tools.
The toilet bolt is spinning because the nut securing it is loose. To fix this, tighten the nut using a wrench or pliers until the bolt is secure and no longer spins.
A stripped truss rod nut can indeed be fixed. There are special not retrieving sockets that may do the trick- they are often in the automotive section of hardware stores. Sometimes these are too bulky to fit in the nut cavity. In this case you either have to visit a luthiery supply site and purchase the specific(costly) tools. The best bet in the end will be to take this to a guitar tech.
I had a coco nut
the filler nut is to the left of the handbrake drum on the back of the transfer case.the nut only has 4 sides to it not hexagon shape.
It increases very slightly, which is why a corroded nut and bolt are so hard to undo.
It all depends on the size of the three items - a metal cube with volume 1 cm3 will weigh far less than one of the bolts they used to attach the space shuttle to the launch pad, correct? And it also depends on the metals in question - an iridium cube will weigh more than a magnesium nut made from the same volume of metal, because iridium is very heavy and magnesium is much lighter. If you had these three objects all of the same metal and they all weighed the same, the cube would be smaller because a cube is a more compact shape than a nut or bolt.