kJ (kilojoule) Hz (hertz) o degree mol Lead (Pb) Helium (He) Lithium (Li) K (Kelvin) m (meter) °C Fluorine (F) Krypton (Kr) Gold (Au) C (coulomb) ≈ approximation Nitrogen (N) ∆ delta √ square root seconds ∪ union ≡ equivalence S (siemens) m² (square meter) Iron (Fe) nm (nanometer) W (watt) G (gravitational constant) - Sodium (Na) J (Joule) g μm (micrometer) Mercury (Hg) GHz (gigahertz) ~ similarity Ω (ohm) mph (miles per hour) mm ≥ E = mc2 ∧ caret ± Pa (pascal) Boron (B) h (Planck's constant) m³ (cubic meter) A (Ampere) ″ (double prime) kg cd (candela) ∞ ′ (prime) N (Newton) e (Euler's number) Neon (Ne) α alpha °F T (tesla) rad (radian) + π Oxygen (O) Carbon (C) ∬double integral ∜ 4th root F (farad) > × Manganese (Mg) % c (speed of light) V (volt) ≤ < ∑ sigma ÷ Tungsten (W) = i (imaginary unit) ∅ empty/null ∫ integral ∩ intersection Silver (Ag) Hydrogen (H) Beryllium (Be) H (henry) ≠ Tin (Sn) ∨ disjunction ∛ cube root kJ (kilojoule) Hz (hertz) o degree mol Lead (Pb) Helium (He) Lithium (Li) K (Kelvin) m (meter) °C Fluorine (F) Krypton (Kr) Gold (Au) C (coulomb) ≈ approximation Nitrogen (N) ∆ delta √ square root seconds ∪ union ≡ equivalence S (siemens) m² (square meter) Iron (Fe) nm (nanometer) W (watt) G (gravitational constant) - Sodium (Na) J (Joule) g μm (micrometer) Mercury (Hg) GHz (gigahertz) ~ similarity Ω (ohm) mph (miles per hour) mm ≥ E = mc2 ∧ caret ± Pa (pascal) Boron (B) h (Planck's constant) m³ (cubic meter) A (Ampere) ″ (double prime) kg cd (candela) ∞ ′ (prime) N (Newton) e (Euler's number) Neon (Ne) α alpha °F T (tesla) rad (radian) + π Oxygen (O) Carbon (C) ∬double integral ∜ 4th root F (farad) > × Manganese (Mg) % c (speed of light) V (volt) ≤ < ∑ sigma ÷ Tungsten (W) = i (imaginary unit) ∅ empty/null ∫ integral ∩ intersection Silver (Ag) Hydrogen (H) Beryllium (Be) H (henry) ≠ Tin (Sn) ∨ disjunction ∛ cube root
(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.
kJ (kilojoule)
Hz (hertz)
o degree
mol
Lead (Pb)
Helium (He)
Lithium (Li)
K (Kelvin)
m (meter)
°C
Fluorine (F)
Krypton (Kr)
Gold (Au)
C (coulomb)
≈ approximation
Nitrogen (N)
∆ delta
√ square root
seconds
∪ union
≡ equivalence
S (siemens)
m² (square meter)
Iron (Fe)
nm (nanometer)
W (watt)
G (gravitational constant)
-
Sodium (Na)
J (Joule)
g
μm (micrometer)
Mercury (Hg)
GHz (gigahertz)
~ similarity
Ω (ohm)
mph (miles per hour)
mm
≥
E = mc2
∧ caret
±
Pa (pascal)
Boron (B)
h (Planck's constant)
m³ (cubic meter)
A (Ampere)
″ (double prime)
kg
cd (candela)
∞
′ (prime)
N (Newton)
e (Euler's number)
Neon (Ne)
α alpha
°F
T (tesla)
rad (radian)
+
π
Oxygen (O)
Carbon (C)
∬double integral
∜ 4th root
F (farad)
>
×
Manganese (Mg)
%
c (speed of light)
V (volt)
≤
<
∑ sigma
÷
Tungsten (W)
=
i (imaginary unit)
∅ empty/null
∫ integral
∩ intersection
Silver (Ag)
Hydrogen (H)
Beryllium (Be)
H (henry)
≠
Tin (Sn)
∨ disjunction
∛ cube root