The student built a container for a Hot Wheels model car. They measured the container to calculate its volume as 632 cm3. They also calculated the surface area as 490.8 cm2. To determine the efficiency of the container, they calculated the surface area to volume ratio. The ratio for the container was 0.79 cm2/cm3, which is not as efficient as a blue cubic decimeter with a ratio of 0.06 cm2/cm3. While the container could store the model car, improving the design could make it more space-efficient.
A quick snapshot into some of the facebook applications we've built recently. We build these on our own CMS which enables you to pull data/report from the app at any time and analyse the success of the campaign. It also enables you to re-skin specific apps to use time and time again.
A quick snapshot into some of the facebook applications we've built recently. We build these on our own CMS which enables you to pull data/report from the app at any time and analyse the success of the campaign. It also enables you to re-skin specific apps to use time and time again.
This is the Work Compiled by the Student of B.Sc.-Interior Design of Dezyne E'cole College.The Presentation of Residential Design is Developed by the Student …
Garima Sharma
B.Sc. Interior Design
This is the Work Compiled by the Student of B.Sc.-Interior Design of Dezyne E'cole College.The Presentation of Residential Design is Developed by the Student …
Bhavika Goyal
B.Sc. Interior Design
A minor report submitted by the group members of our project work in the field of Civil Engineering and Construction Works.This report will be very helpful for the Civil Engineering students inorder to know how estimation of a building is done in a very simple manner.
This is the Work Compiled by the Student of B.Sc.-Interior Design of Dezyne E'cole College.The Presentation of Residential Design is Developed by the Student …
Garima Sharma
B.Sc. Interior Design
This is the Work Compiled by the Student of B.Sc.-Interior Design of Dezyne E'cole College.The Presentation of Residential Design is Developed by the Student …
Bhavika Goyal
B.Sc. Interior Design
A minor report submitted by the group members of our project work in the field of Civil Engineering and Construction Works.This report will be very helpful for the Civil Engineering students inorder to know how estimation of a building is done in a very simple manner.
1. Unit 2 Project Surface
Area and Volume
Container Project Design
By Shivank 8B Algeo Lemos
2. Steps 1 : Adressing the problem
The purpose of this project is to build an efficient container
for the hot wheels model car below. To do so I will build the
container and calculate the volume to surface area ratio to
see if it is efficient. and calculate the volume of the
container.
6. Step 3: Take measurement of the net in order to
estimate the volume and surface area of object
7.
8. Step 4: Calculate the volume and
surface area of the container
The volume of an object is the amount of space
inside the object measured in cm3.
Volume= Height x width x length.
Volume = 5 x 15.8 x 8 = 632cm3
9. Finding surface area!
The surface area of an object in the amount of
space of the outside surface areas.
side A = length x width
side B = length x width
top = length x width
bottom = length x width
end A = length x width
end B = length x width
15.8 x 8 x 2 + 5 x 8 x 2 + 15.8 x 5x 2= 490.8
cm2
10. Step 5: Calculate the surface area to
volume ratio
The efficiency of my container is based on the
surface area to volume ratio. The lower the
ratio the more efficient my container is. If I
compare my container to the blue cubic
decimeter that had a ration of .06 cm2/cm2, it is
not quite as efficient. I did not use up as much
space inside the container as I should have. I
could have made it a bit smaller and would
have been more efficient. My container=
Surface area/ Volume ratio= 490.8
cm2/623cm3=0.79
11. Analyzing my container!
My container is enviromentally useful because
as you know it can be kept in a shelf. The
structure of my container is a rectangular prism
therefore it doesn't waste space for an item to
fit in. I think if a company would examine my
container they would want build the same ways
as I did.