Steel? Aluminium?
As a column (vertical leg) or a horizontal beam?
In both cases the length and the method of fixing/supporting the ends will determine the maximum allowable load.
A supplementary angle can not be a complementary angle. The complementary angle has 2 angles equal 90... but a supplementary angle is X2 that much (108). * * * * * Nearly correct. 90 x 2 is 180, not 108!
It depends on what material your support is made out of. The density of the material will be the greatest factor. Your volume of your material is 96 cubed units.
The sum of interior and exterior angle = 180. The interior angle of a regular pentagon = (n-2)x180 / n = (5-2)x180/5 = 108 The exterior angle = 180 - 108 = 72 The interior angle is 35 degrees greater than exterior angle.
Weight of MS Angle = (2*W-T)*T*L*7840 kg (All units are in MKS) Where, S = Width of any side in mtr T = Thickness of the angle in mtr. L = Length of the angle in mtr. 7840 is the density of MS in kg / m3. w=(2*.1-.008)*.008*1*7840 =(.2-.008)*62.72 =(.192)*62.72 =12.04 kg/mr
In what material ?
2 tonnes
depends what its made of
It depends what it is made of and the thickness of the material. It also depends upon the distribution of weight in the box. For example a box made of card will not be able to support much weight whilst a box made of aluminium will be able to support a lot more weight.
Livestock trailers will generally hold between 4 and 8 tons. Also, if they have 2 axles they can support more weight.
cuz she was 2 fat 2 support her weight!
A supplementary angle can not be a complementary angle. The complementary angle has 2 angles equal 90... but a supplementary angle is X2 that much (108). * * * * * Nearly correct. 90 x 2 is 180, not 108!
Use this formula to find the largest weight of a load that is safe regardless of the angle of the crane's arm: W_safe = (W*c)/(2*a)
It depends on what material your support is made out of. The density of the material will be the greatest factor. Your volume of your material is 96 cubed units.
It depends on: 1. The section (box, I-beam, angle), 2. The cross-sectional dimensions, and 3. The width (span). More info is needed for a useful answer.
It could be one of three things: 1. your ankel is not able to support your weight 2. you injured it and it is swalllen 3. too much salt in your diet
First, consider how the angle is supported and how the load is applied, then apply the applicable Strength of Materials equations for that case.
The sum of interior and exterior angle = 180. The interior angle of a regular pentagon = (n-2)x180 / n = (5-2)x180/5 = 108 The exterior angle = 180 - 108 = 72 The interior angle is 35 degrees greater than exterior angle.