Difference between revisions of "Data collection"
From S.H.O.
(→Unit Conversions) |
(→Unit Conversions) |
||
Line 7: | Line 7: | ||
* 1 milliamp-hour = 3.6 Coulombs | * 1 milliamp-hour = 3.6 Coulombs | ||
* 1 amp-hour = 3600 Coulombs | * 1 amp-hour = 3600 Coulombs | ||
+ | * 1 cubic meter = 10^3 cubic decimeters (dm³) = 10^6 cubic centimeters (cm³) | ||
+ | * 1 cubic meter = 10^3 liters (L) = 10^6 milliliters (mL) | ||
'''Fun''' | '''Fun''' | ||
+ | * 1 gallon (gal) = 2^2 quarts (qt) = 2^3 pints (pt) = 2^4 cups (C) = 2^7 fluid ounces (fl oz.) = 2^8 tablespoons (Tbps) | ||
* 2000 Calories (kCal) = 2.324 kilowatt-hours (kWh) | * 2000 Calories (kCal) = 2.324 kilowatt-hours (kWh) | ||
* 100 Calories per 2 Tablespoons (kCal/Tbsp) = 3,930 watt-hours per liter (Wh/L) | * 100 Calories per 2 Tablespoons (kCal/Tbsp) = 3,930 watt-hours per liter (Wh/L) | ||
− | + | * Energy of a <span style="color:red">'''neodymium magnet'''</span> at 1.5 Tesla (T) | |
− | + | **(1.5 Tesla)^2/(2*4pi*10^-7 Henries per meter) * (1.639 * 10^-5 cubic meters) = <span style="color:red">'''14.67 Newton-meters (Nm) in a cubic inch'''</span> | |
− | + | **''Conclusion: A cubic inch neomagnet, if depleted of its magnetic energy, could not even run a 15 watt light bulb for one second.'' | |
− | + | * Energy of a <span style="color:green">'''AA Battery'''</span> (7.7 mL) at 1.5 Volts (V) and 2000 milliamp-hours (mAh) | |
− | + | **(1.5 Volts * 7200 Coulombs) * (16.39 ml / 7.7 mL) = <span style="color:green">'''22,990 Newton-meters (Nm) in a cubic inch (> 1,500x)'''</span> | |
− | + | ** ''Conclusion: The magnetic field energy of a magnet, if depleted, would yield less than 0.1% as much energy as a battery of the same size.'' | |
− | + | * Energy of <span style="color:blue">'''Peanut Butter'''</span> at 100 Calories per 2 Tablespoons | |
− | + | **(3,930 Wh/L) * (3600 Nm/Wh) * (0.01639 L) = <span style="color:blue">'''231,900 Newton-meters (Nm) in a cubic inch (> 15,000x)'''</span> | |
− | + | ** ''Conclusion: Food sources of energy can be substantially more energy dense than typical battery tech.'' | |
==Device Dimensions== | ==Device Dimensions== |
Revision as of 02:17, 24 April 2016
Unit Conversions
Useful
- 1 inch (in) = 2.54 centimeters (cm)
- 1 foot (ft) = 0.3084 meters (m)
- 1 cubic inch (in³) = 16.39 milliliters (mL) = 1.639 * 10^-5 cubic meters (m³)
- 1 milliamp-hour = 3.6 Coulombs
- 1 amp-hour = 3600 Coulombs
- 1 cubic meter = 10^3 cubic decimeters (dm³) = 10^6 cubic centimeters (cm³)
- 1 cubic meter = 10^3 liters (L) = 10^6 milliliters (mL)
Fun
- 1 gallon (gal) = 2^2 quarts (qt) = 2^3 pints (pt) = 2^4 cups (C) = 2^7 fluid ounces (fl oz.) = 2^8 tablespoons (Tbps)
- 2000 Calories (kCal) = 2.324 kilowatt-hours (kWh)
- 100 Calories per 2 Tablespoons (kCal/Tbsp) = 3,930 watt-hours per liter (Wh/L)
- Energy of a neodymium magnet at 1.5 Tesla (T)
- (1.5 Tesla)^2/(2*4pi*10^-7 Henries per meter) * (1.639 * 10^-5 cubic meters) = 14.67 Newton-meters (Nm) in a cubic inch
- Conclusion: A cubic inch neomagnet, if depleted of its magnetic energy, could not even run a 15 watt light bulb for one second.
- Energy of a AA Battery (7.7 mL) at 1.5 Volts (V) and 2000 milliamp-hours (mAh)
- (1.5 Volts * 7200 Coulombs) * (16.39 ml / 7.7 mL) = 22,990 Newton-meters (Nm) in a cubic inch (> 1,500x)
- Conclusion: The magnetic field energy of a magnet, if depleted, would yield less than 0.1% as much energy as a battery of the same size.
- Energy of Peanut Butter at 100 Calories per 2 Tablespoons
- (3,930 Wh/L) * (3600 Nm/Wh) * (0.01639 L) = 231,900 Newton-meters (Nm) in a cubic inch (> 15,000x)
- Conclusion: Food sources of energy can be substantially more energy dense than typical battery tech.
Device Dimensions
Measurements
Site map
HQ ● Glossary ● April 2016 Presentation
|