kingdeadly1

28.07.2024 · 09:30:10 ···
01.01.1970 · 01:00:00 ···
14.07.2023 · 18:59:18 ··· 5 ··· ··· 15 ···
28.07.2024 · 09:30:10 ···
01.01.1970 · 01:00:00 ···
14.07.2023 · 18:59:18 ··· 5 ··· ··· 15 ···

1:: Megadeth Symphony of Destruction Riff

01.01.1970 · 01:00:00 ··· 10.09.2011 · 08:32:47 ··· ···
··· ··· ··· ··· Who cares

2:: Resistance Series-Parallel Circuits

01.01.1970 · 01:00:00 ··· 05.05.2011 · 09:33:51 ··· ···
··· ··· ··· ··· I used one 1kohm resistor in series with two 10kohm resistors in parallel, which is also connected to another two 10kohm resistors in parallel. The Re of two 10kohm resistors in parallel is 5kohm. Therefore I have a resistance total of 11kohm. R1 = 1kohm (in series) R2 = 10kohm and R3 = 10kohm (in parallel) R4 = 10kohm and R5 = 10kohm (in parallel) R2 and R3 = R4 and R5 = 5kohm which can be calculated as follows: Re1 = (R4 * R5)/(R4 + R5) = 5kohm Re2 = (R2 * R3)/(R2 + R3) = 5kohm R1 = 1kohm Therefore: RT = R1 + Re1 + Re2 = 11kohm Or we can calculate that: Re1 = Re2 = 10kohm/2resistors = 5kohm

3:: Equivalent Resistance Parallel Circuits

01.01.1970 · 01:00:00 ··· 05.05.2011 · 06:18:14 ··· ···
··· ··· ··· ··· I used three 10kohm resistors in parallel to measure the equivalent resistance in the circuit. Remember when measuring resistance to not use any power. When calculating Re within a parallel circuit using resistors of equal value the formula becomes very simple: Resistance value of one resistor/number of resistors 10kohm/3 = 3.3kohm When using resistors of different value the formula changes: Re = (R1 * R2)/(R1 + R2) = 100Mohm/20kohm = 5kohm Then repeat the process again if more resistors are being used.

4:: Voltage Series Circuits

01.01.1970 · 01:00:00 ··· 03.05.2011 · 08:25:05 ··· ···
··· ··· ··· ··· Measuring voltage across resistors in a series circuit. R1 = 1kohm, R2 = 10kohm, R3 = 27kohm, and the voltage supply = 9.5VDC. RT = R1 + R2 + R3 = 38kohm IT = VT/RT = 9.5VDC/38kohm = 250uA VR1 = IT * R1 = 250mV VR2 = IT * R2 = 2.5V VR3 = IT * R3 = 6.75V VT = VR1 + VR2 + VR3 = 9.5V Hence KVL.

5:: Current Series Circuits

01.01.1970 · 01:00:00 ··· 03.05.2011 · 07:26:36 ··· ···
··· ··· ··· ··· Measuring current in a series circuit using 9.5VDC and three 100ohm resistors. Remember that current is a constant in series circuits, meaning its value does not change throughout the circuit. RT = R1 + R2 + R3 = 300ohm IT = VT/RT = 9.5V/300ohm = 31.67mA

6:: Resistance Series Circuits

01.01.1970 · 01:00:00 ··· 03.05.2011 · 05:37:07 ··· ···
··· ··· ··· ··· This is a short video on how to measure resistance with a DMM. I used three 10kohm resistors in series. When measuring resistance make sure the power supply is turned off or you will measure the voltage instead of the resistance. R1 = R2 = R3 = 10kohm RT = R1 + R2 + R3 = 30kohm

7:: Motorjesus_Powertool .m4v

01.01.1970 · 01:00:00 ··· 11.12.2010 · 07:40:51 ··· ···
··· ··· ··· ··· Motorjesus is fucking EPIC. I probably fucked something up, so piss off if your one of those individuals that likes to post rude comments. I betcha don't have this guitar.

8:: Motorjesus Dirty Pounding Gasoline

01.01.1970 · 01:00:00 ··· 11.12.2010 · 07:32:01 ··· ···
··· ··· ··· ··· Motorjesus kicks ass all day long. I probably fucked something up, so don't be a jackass. Played and learned by ear. Mesa Boogie Road King/ Washburn Prototype 3/4 scale guitar

9:: Motorjesus Dirty Pounding Gasoline

01.01.1970 · 01:00:00 ··· 05.12.2010 · 08:47:48 ··· ···
··· ··· ··· ··· I fucked up some of this, but it's all played by ear. Motorjesus fucking kicks ass.

10:: Nutshell For GW RIP

01.01.1970 · 01:00:00 ··· 22.08.2010 · 08:07:39 ··· ···
··· ··· ··· ··· We all miss you and love you buddy. Dedicated to GW and family from CB

11:: Best Guitar Riff Ever

01.01.1970 · 01:00:00 ··· 02.08.2010 · 09:57:50 ··· ···
··· ··· ··· ··· Gibson Les Paul Custom/Mesaboogie Roadking 1st Gen

12:: Guitar Riff/Solo Made in 10 Minutes

01.01.1970 · 01:00:00 ··· 31.07.2010 · 10:36:09 ··· ···
··· ··· ··· ··· Tits this is for you buddy.

13:: Breadboard 74LSO4/74LS08/74LS32

01.01.1970 · 01:00:00 ··· 07.04.2010 · 07:58:12 ··· ···
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14:: Bin/Dec/Hex Conversions TI-89.MOV

01.01.1970 · 01:00:00 ··· 03.04.2010 · 04:03:02 ··· ···
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15:: EEPro.MOV

01.01.1970 · 01:00:00 ··· 02.04.2010 · 23:37:25 ··· ···
··· ··· ··· ··· TI-89