YES
Masonry implies bricks, blocks, or stones held together with mortar. Bricks are fired ceramic. Blocks are usually formed concrete. And stones are formed naturally and quarried from the earth. They are held together with mortar. Concrete is used as mortar, but concrete can also be poured to make slabs and foundations. I think the difference is that concrete can be used by itself without being considered masonry. For example, even statues can be made from concrete by pouring them into a mold.
No,in both cases same amount of money is spented,bcoz concrete also uses brick to build
There's a saying that "a chain is only as strong as its weakest link", and pretty much the same goes for a brick and mortar wall. If the mortar is stronger than the brick, all that would happen if the wall would be put under heavy pressure is that the bricks would crack instead of the mortar. On top of that, cracked mortar is a lot easier to remove & replace than cracked bricks. Ideally you want the mortar to be just a tiny bit weaker than the bricks. You get a wall that's almost at it's max strength, but easy to repair.
Yes, cement bricks and concrete bricks can be used together in the same wall construction. However, it's important to ensure compatibility in terms of strength, density, and size to maintain structural integrity. Consulting with a structural engineer or contractor is recommended for best results.
The work done in raising any object from the ground is independent of the nature of the object (its composition and girth). Hence the data provided ("brick wall of uniform thickness of height 2meter [sic]") is irrelevant. The work that is done in "raising from the ground" any object massing 1000kg is the same as the work done raising any other object massing 1000kg the same distance, for example, five pecks of osmium fashioned into the death mask of Albert Einstein.It should be noted that the expression "to raise a wall" is sometimes used to mean the same thing as "to erect a wall", which clearly not at all the same thing as "to lift a wall". The point of idiotic exercises such as this is the entertainment of idiots and so the fact that terms are employed which are vague and consequently readily misinterpreted is to be expected. When human lives are at stake, for example in the design of bridges, such vagueness can have consequences which most people do not find amusing, for example, the death of the man and woman who conceived one.The answer is 9806.65 Newton-meters per meter raised (a datum not provided). This neglects the lift, which cannot be calculated without knowing the thickness and length of the wall. likewise data not provided. The wall displaces a volume of air (which weighs about one gram per liter), and the work done is less as a result. The effective mass is the mass of the wall, less the mass of the air it displaces. Since the air mass displaced is a function of altitude the solution to the problem requires calculus. Similarly, the gravitational force exerted per kilogram of mass declines as the wall is lifted and a careful calculation of the work performed must take that into account as well. Since both of these quantities vary *within the range specified as 2meters from top to bottom* the problem is quite intricate when fully fleshed unless one makes simplifying assumptions (the force of gravity is the same throughout the wall, etc.) to obtain an approximation rather than the most precise answer possible.
If you want the look of stone siding without the costly maintenance, consider purchasing a brick or stone veneer. It will not need the mortar replacement that actual brick or stone siding requires. It also costs less upfront that does the real deal. Real brick or stone siding must rest on a foundation while the veneer adheres to the house with mortar or mastic. The veneer is also nearly identical in appearance to real brick or stone, since it is made from the same materials.
Yes, air has a significantly lower mass than a brick. Air is made up of gases, which have a very low density compared to the solid materials that make up a brick. A typical brick weighs much more than the same volume of air.
For the same reason most things are called what they are. At some point someone said "this is a brick" and the name stuck.
No, the volume of a 2-kilogram iron brick would not be twice that of a 1-kilogram iron brick. The weight of an object does not directly correlate with its volume, as volume is determined by the dimensions and density of the object, not just its weight.
Sound would travel faster through one brick than the same amount of concrete based on molecular structure but if a wall were built with brick, mortar would be required, this mortar would slow the sound vibrations and scatter them, while the same size wall made of concrete is solid and would then conduct sound faster than the brick wall.
a gold brick is much denser..................................jk i seriously have no idea but it is an intresting question
Depending upon what size of brick you order and the quantity, brick can be as cheap as $1.00 or less for lower grade brick and up to $20 or more for special shapes. Visit one of the top 5 brick companies in the US, Redland Brick: http://www.redlandbrick.com If you are looking for thin brick, they will cost about the same as a full size brick if the thin brick is made of real brick. Except you'll get two piece of face brick from each brick made. The number one thin brick company in America is Tru-Brix, you can visit their site here: htt://tru-brix.com
No. Light can't travel through solid brick, steel etc, but sound can.
fair faced brick and deep struck pointing are same thing?
Because half a brick weighs the same amount as the average bat
volume
I do not know what a "song shoot" is, but I will attempt to generically answer the second half of the question in regards to a brick compared to anything else. If a brick is thrown/fired/shot, it will have a different aerodynamic drag that anything that doesn't have the same shape. If a brick thrown/fired/shot with the same force as a lighter object, the brick will have a lower speed. If the speed of the two objects are the same, the brick required more force than the lighter object. If a brick thrown/fired/shot at the same angle as another object, the arch will be the same, as acceleration is independant of mass.