Topology Formula Cheat Sheet
| Topic | Formula | Description |
|---|---|---|
| Topological Space | (X, τ) | Set with collection of open sets |
| Open Set | U ∈ τ | Contains neighborhood of each point |
| Closed Set | X − U | Complement of open set |
| Closure | cl(A) | Smallest closed set containing A |
| Interior | int(A) | Largest open set inside A |
| Boundary | ∂A = cl(A) − int(A) | Edge points of set |
| Limit Point | Every neighborhood intersects A | Accumulation point |
| Dense Set | cl(A) = X | Everywhere dense |
| Nowhere Dense | int(cl(A)) = ∅ | Sparse set |
| Basis | Collection generating topology | Open set builder |
| Subspace Topology | τY = {U∩Y} | Induced topology |
| Product Topology | τ = Πτᵢ | Product spaces |
| Quotient Topology | τ = {U ⊆ Y : f⁻¹(U) open} | Identifications |
| Continuous Function | f⁻¹(U) open | Preimage rule |
| Homeomorphism | Bijective + continuous + inverse continuous | Same topology |
| Topological Property | Invariant under homeomorphism | Structural property |
| Open Map | f(U) open | Image open |
| Closed Map | f(F) closed | Image closed |
| Embedding | Injective homeomorphism onto image | Structure preserving |
| First Countable | Countable neighborhood basis | Local property |
| Second Countable | Countable base | Global property |
| Separable Space | Countable dense subset | Density property |
| Lindelöf Space | Every cover has countable subcover | Compact-like |
| Compact Space | Every open cover has finite subcover | Key property |
| Heine-Borel | Closed & bounded ⇒ compact | ℝⁿ result |
| Sequential Compactness | Every sequence has convergent subsequence | Equivalent in ℝ |
| Connected Space | Cannot split into disjoint open sets | Single piece |
| Path Connected | Any two points connected by path | Strong connection |
| Components | Maximal connected subsets | Parts |
| Hausdorff Space | Points separable by neighborhoods | T₂ space |
| Regular Space | Point & closed set separable | T₃ space |
| Normal Space | Two closed sets separable | T₄ space |
| Urysohn Lemma | Separate sets via function | Construction |
| Tietze Extension | Extend continuous functions | Extension theorem |
| Tychonoff Theorem | Product of compact spaces compact | Major result |
| Metric Space | (X,d) | Distance defined |
| Open Ball | B(x,r) = {y : d(x,y)<r} | Neighborhood |
| Complete Space | Every Cauchy sequence converges | Completeness |
| Baire Category | Not union of nowhere dense sets | Important theorem |
| Fixed Point (Banach) | Contraction ⇒ unique point | Existence |
| Fundamental Group | π₁(X) | Loop structure |
| Simply Connected | No holes | π₁ = trivial |
| Covering Space | Local homeomorphism | Lift property |
| Homotopy | Continuous deformation | Same shape |
| Homology | Algebraic invariants | Holes count |
| Euler Characteristic | V − E + F | Topological invariant |
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