Charge and Energy

[I'm Mr.B]

We know that charge of the electron is 1.6e-19 C and the work function
of the electron is 1.6e-19 J can anyone descripe the relation between
charge and energy and why the value remains same?

 

[Globemaker]

On May 7, 11:59 am, "I'm Mr.B" <iambhara...@gmail.com> wrote:

We know that charge of the electron is 1.6e-19 C and the work function
of the electron is 1.6e-19 J can anyone descripe the relation between
charge and energy and why the value remains same?

Work = energy = Fd = Force times distance

F =qE = charge times electric field - Force

E = electric field = volts per distance = volts per meter = V/d

multiply force eqation by distance to get energy

Fd = qEd

substitute electric field equation

energy = Fd = qEd = q(V/d)d = qV

energy = qV

units of electron volts = energy

1 electron volt = 1.6e-19 J 

 

[Rich Grise]

Globemaker wrote:

On May 7, 11:59 am, "I'm Mr.B" <iambhara...@gmail.com> wrote:
We know that charge of the electron is 1.6e-19 C and the work function
of the electron is 1.6e-19 J can anyone descripe the relation between
charge and energy and why the value remains same?

Work = energy = Fd = Force times distance

F =qE = charge times electric field - Force

E = electric field = volts per distance = volts per meter = V/d

multiply force eqation by distance to get energy

Fd = qEd

substitute electric field equation

energy = Fd = qEd = q(V/d)d = qV

energy = qV

units of electron volts = energy

1 electron volt = 1.6e-19 J

Must be midterms week.

 

[krw@att.bizzzzzzzzzzzz]

On Sat, 07 May 2011 20:29:58 -0700, Rich Grise <richg@example.net.invalid>
wrote:

Globemaker wrote:
On May 7, 11:59 am, "I'm Mr.B" <iambhara...@gmail.com> wrote:
We know that charge of the electron is 1.6e-19 C and the work function
of the electron is 1.6e-19 J can anyone descripe the relation between
charge and energy and why the value remains same?

Work = energy = Fd = Force times distance

F =qE = charge times electric field - Force

E = electric field = volts per distance = volts per meter = V/d

multiply force eqation by distance to get energy

Fd = qEd

substitute electric field equation

energy = Fd = qEd = q(V/d)d = qV

energy = qV

units of electron volts = energy

1 electron volt = 1.6e-19 J

Must be midterms week.

May is finals month. He's toast.

 

[George Herold]

On May 8, 12:59 am, "k...@att.bizzzzzzzzzzzz"
<k...@att.bizzzzzzzzzzzz> wrote:

On Sat, 07 May 2011 20:29:58 -0700, Rich Grise <ri...@example.net.invalid
wrote:





Globemaker wrote:
On May 7, 11:59 am, "I'm Mr.B" <iambhara...@gmail.com> wrote:
We know that charge of the electron is 1.6e-19 C and the work function
of the electron is 1.6e-19 J can anyone descripe the relation between
charge and energy and why the value remains same?

Work = energy = Fd = Force times distance

F =qE = charge times electric field - Force

E = electric field = volts per distance = volts per meter = V/d

multiply force eqation by distance to get energy

Fd = qEd

substitute electric field equation

energy = Fd = qEd = q(V/d)d = qV

energy = qV

units of electron volts = energy

1 electron volt = 1.6e-19 J

Must be midterms week.

May is finals month.  He's toast.- Hide quoted text -

Ahh finals, That explains it.

- Show quoted text -