Term
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Definition
M= mv
Momentum=mass x velocity |
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Term
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Definition
ET = Ek + Ep
or
Ek = 1/2 mv2
or
Ep = mgh |
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Term
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Definition
P=Δw/Δt
Power = Change in work/change in time |
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Term
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Definition
I = Q/t
Current = Charge flow/secs
Amperes=Coulumbs/secs |
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Term
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Definition
V=IR
Voltage = Current/Resistance |
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Term
Resistors in series
Resistors in Par. |
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Definition
Req= R1 + R2 ..
1/Req + 1/R1 + 1/R2 |
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Term
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Definition
Force = ma
Force= mass x acceleration |
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Term
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Definition
P= F/A
Pressure = Force / Unit of Area |
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Term
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Definition
ΔP = ρgΔh
Change in pressure = density x gravity x Δ in height |
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Term
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Definition
ρvA = constant
Density x velocity of fluid x X-sectional area =constant |
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Term
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Definition
Σi = 0 at a junction
ΣΔV= 0 in a loop
V= voltage
sum of currents = 0
sum of voltage changes in a loop=0 |
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Term
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Definition
W=mg
Mass and gravitation constant |
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Term
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Definition
ρ = mass /volume
Fb= Vρg = mg |
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Term
| Optics Manification Equation |
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Definition
m = -i/o
image over object
If M= negative = inverted
If M= Positive = erect image
if i is smaller than o = diminished |
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Term
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Definition
L1 = F1× r1 (CCW + ve)
L2 = F2× r2 (CW - ve)
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Term
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Definition
∑F=m x a
mass times acceleration |
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Term
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Definition
F= KG(m1m2/ r2)
r=distance between bodies
KG is the constant
m1m2=masses |
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Term
| Coulumbs law (use with law of gravitation) |
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Definition
F = k(q1q2/r2)
Note: if distance r2 is doubled, force is quartered |
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