Difference between revisions of "Big Red"

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== Specs: ==
 
== Specs: ==
  
Line 20: Line 19:
 
'''Calculating the Magnetic Field Needed:'''
 
'''Calculating the Magnetic Field Needed:'''
  
Lorentz Force equation: <math>F=q(v×B)</math>
+
Lorentz Force equation: F=q(v×B)
  
 
Electron moves through the magnetic field B accelerated by force F proportional to the component of velocity perpendicular to the field B and velocity  v.  Moves with constant kinetic energy and speed due to the fact that the magnetic field never does work on the particle since the always moves perpendicular to the force.  
 
Electron moves through the magnetic field B accelerated by force F proportional to the component of velocity perpendicular to the field B and velocity  v.  Moves with constant kinetic energy and speed due to the fact that the magnetic field never does work on the particle since the always moves perpendicular to the force.  
  
Magnetic force: <math>F=evB</math>
+
Magnetic force: <math>F=e*v*B</math>
 +
 
 +
The radius of the arc can be through: <math>(m*v^2)/R=e*v*B</math>
 +
 
 +
giving: <math>R=m*v/e*B</math>
  
The radius of the arc can be through: <math>(mv^2)/R=evB</math>
+
The length of the circular arc is  S and the deflection angle is found as: sin(θ)=S/R
  
giving: <math>R=mv/eB</math>
+
For small  θ, and large R, the arc length  S will be approx L, giving: sin(θ)=L/R=L*e*B/m*v
  
The length of the circular arc is  S and the deflection angle is found as: <math>sinθ=S/R</math> 
+
Giving    θ=sin^(-1)(c*B*L/p)
  
For small  θ, and large R, the arc length  S will be approx L, giving: <math>sinθ=L/R=LeB/mv</math>   
+
The displacement is found as: d=R-R*cos(θ)=m*v/e*B*(1-cos(θ))
Giving    <math>θ=sin^(-1)⁡〖 (cBL/p)〗</math>
 
The displacement is found as: <math>d=R-Rcosθ=mv/eB(1-cosθ)</math>
 
  
Table:  Data for  B=0.0015 T.
+
Table:  Data for  B=0.0078 T.
 
{| border="1" cellpadding="2"
 
{| border="1" cellpadding="2"
 
!width="70"|Momentum
 
!width="70"|Momentum
Line 48: Line 49:
 
|P (MeV)||R (m)||θ (radians)||θ (degrees)||d (cm)
 
|P (MeV)||R (m)||θ (radians)||θ (degrees)||d (cm)
 
|-
 
|-
|1||2.22376032||0.12398179||7.103633471||1.706936726
+
|1||0.43||0.70||40.02||10.01
 
|-
 
|-
|2||4.44752065||0.06187167||3.544985606||0.851006969
+
|2||0.86||0.33||18.76||4.54
 
|-
 
|-
|3||6.67128097||0.04123315||2.362485567||0.567036176
+
|3||1.28||0.22||12.38||2.98
 
|-
 
|-
|4||8.89504129||0.03092103||1.77164444||0.425198022
+
|4||1.71||0.16||9.25||2.22
 
|-
 
|-
|5||11.1188016||0.0247354||1.417234227||0.340129141
+
|5||2.14||0.13||7.39||1.78
 
|-
 
|-
|6||13.3425619||0.02061219||1.180991717||0.283427701
+
|6||2.57||0.11||6.15||1.48
 
|-
 
|-
|7||15.5663223||0.01766726||1.012259595||0.242931183
+
|7||2.99||0.09||5.27||1.27
 
|-
 
|-
|8||17.7900826||0.01545867||0.885716346||0.212560897
+
|8||3.42||0.08||4.61||1.11
 
|-
 
|-
|9||20.0138429||0.01374092||0.787296837||0.18894065
+
|9||3.85||0.07||4.10||0.98
 
|-
 
|-
|10||22.2376032||0.01236676||0.708562916||0.17004506
+
|10||4.28||0.06||3.69||0.89
 
|-
 
|-
|11||24.4613636||0.01124246||0.644145256||0.154585392
+
|11||4.70||0.06||3.35||0.80
 
|-
 
|-
|12||26.6851239||0.01030555||0.590464498||0.141702561
+
|12||5.13||0.05||3.07||0.74
 
|-
 
|-
|13||28.9088842||0.00951279||0.545042725||0.13080185
+
|13||5.56||0.05||2.84||0.68
 
|-
 
|-
|14||31.1326445||0.00883329||0.50611005||0.121458483
+
|14||5.99||0.05||2.63||0.63
 
|-
 
|-
|15||33.3564048||0.00824439||0.472368588||0.113360965
+
|15||6.41||0.04||2.46||0.59
 
|-
 
|-
|16||35.5801652||0.0077291||0.442844944||0.106275686
+
|16||6.84||0.04||2.30||0.55
 
|}
 
|}
  

Latest revision as of 21:20, 15 May 2009

Specs:

TESLA ENGINEERING: 7 Degree Bend Angle Dipole

[math]B=0.35 T[/math]

Current: [math]138 A[/math]

Resistance: [math]0.116 ohm[/math]

Voltage: [math]V=IR=16.008 V[/math]

Water Flow: [math]1.2 L/minute[/math]


CALCULATIONS

Calculating the Magnetic Field Needed:

Lorentz Force equation: F=q(v×B)

Electron moves through the magnetic field B accelerated by force F proportional to the component of velocity perpendicular to the field B and velocity v. Moves with constant kinetic energy and speed due to the fact that the magnetic field never does work on the particle since the always moves perpendicular to the force.

Magnetic force: [math]F=e*v*B[/math]

The radius of the arc can be through: [math](m*v^2)/R=e*v*B[/math]

giving: [math]R=m*v/e*B[/math]

The length of the circular arc is S and the deflection angle is found as: sin(θ)=S/R

For small θ, and large R, the arc length S will be approx L, giving: sin(θ)=L/R=L*e*B/m*v

Giving θ=sin^(-1)(c*B*L/p)

The displacement is found as: d=R-R*cos(θ)=m*v/e*B*(1-cos(θ))

Table: Data for B=0.0078 T.

Momentum Radius of Curvature Bend Angle Bend Angle Displacement @ end of magnet
P (MeV) R (m) θ (radians) θ (degrees) d (cm)
1 0.43 0.70 40.02 10.01
2 0.86 0.33 18.76 4.54
3 1.28 0.22 12.38 2.98
4 1.71 0.16 9.25 2.22
5 2.14 0.13 7.39 1.78
6 2.57 0.11 6.15 1.48
7 2.99 0.09 5.27 1.27
8 3.42 0.08 4.61 1.11
9 3.85 0.07 4.10 0.98
10 4.28 0.06 3.69 0.89
11 4.70 0.06 3.35 0.80
12 5.13 0.05 3.07 0.74
13 5.56 0.05 2.84 0.68
14 5.99 0.05 2.63 0.63
15 6.41 0.04 2.46 0.59
16 6.84 0.04 2.30 0.55


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