Volume of a cone = 1/3*pi*radius2*height
1560 Kg/M3 not always the answer like this i have made experiment , and it show to me that the denisty is 14635 kg⁄m3 for dry ,,,, and 14867.7 kg⁄m3 for wet thanks,,,, eng.moh elnajjar
cone
1 ppm = 1.33 µg/m3
CFM is a Volumetric Flow Rate while m/s is a velocity, you need the additional measurement of the Cross Sectional Area of the flow to fully work it out.Since there are 2118.88 CFM : 1 m3/s41.3 CFM divided by 2118.88 = 0.01949 m3/sDivide this by the area in m2 & you will get m/s.
it is not difficult for me but if you find it difficult, try to understand the concept of the topic you are learning in maths. try reading the examples again and again to understand how does the equation work and how to get the solution.
Use the equation for the volume of a cone, replace the known height and volume, and solve the resulting equation for the radius.
1357.168 m3
The volume is 83.776 m3
(1/3)*(pi)*(radius^2)*(height of cone)
Volume = 183.25957 m3
To find the answer to this question you would have to know how to find the volume of a cone. First, find the angle of the side to the base to determine at what height a cone would be formed if the sides of the cylinder extended all the way up to a single point. This would be the height of the cone. Take this number and put into the equation Assuming you know the radius of the cylinder at the bottom, the wider side. Next, subtract the total height of the cone from the height of the cylinder you want to know the volume of. You will now be finding the volume of the smaller cone within the larger cone. Put the smaller height into the above equation now using the radius of the top part of cylinder. Subtract this total from the total volume of the biggest cone and you will have the volume of a cylinder that is smaller on one end.
m3 is not defined.
There are a lot of information in order for one to find out on the M3 CSL website. However, all of the information one is able to find out on the M3 CSL website is related to cars.
1884 cm3
If you mean the "general equation of a cone" to be the elliptical cone equation: z = √( (x/a)2 + (y/b)2 ) ... then the function in C to compute this given the proper variables is: double genEqCone(const double x, const double y, const double a, const double b) { const double X_A = (x/a); const double Y_B = (y/b); return sqrt((X_A * X_A) + (Y_B * Y_B)); }
Density (kg/m3) = mass (kg)/Volume (m3) So to find the density of the wooden block, the triple beam balanced is used to calculate the mass and the metre rule is used to measure the height, length and width of the wooden block. Then the volume is calculated by multiplying the thee distances obtained from the ruler. Finally the density is calculated using the equation: Density (kg/m3) = mass (kg)/Volume (m3)
It depends on what the cone looks like.