Prove: if s^3 - s^2 is algebraic over a field K then s is algebraic over...

Let F⊆K⊆E be extension fields. If K is an algebraic extension of F and let α∈E...

Let F⊆K⊆E be extension fields. If K is an algebraic extension of F and let α∈E be algebraic over K. Show that α is also algebraic over F.

(A) Prove that over the field C, that Q(i) and Q(2) are isomorphic as vector spaces?...

(A) Prove that over the field C, that Q(i) and Q(2) are isomorphic as vector spaces? (B) Prove that over the field C, that Q(i) and Q(2) are not isomorphic as fields?

(A) Prove that over the field C, that Q(i) and Q(sqrt(2)) are isomorphic as vector spaces....

(A) Prove that over the field C, that Q(i) and Q(sqrt(2)) are isomorphic as vector spaces. (B) Prove that over the field C, that Q(i) and Q(sqrt(2)) are not isomorphic as fields

? is a vector field and ? is a scalar field 1. Prove in 3 dimensions:...

? is a vector field and ? is a scalar field 1. Prove in 3 dimensions: ∇ ∙ (∇ × ? ) = 0 2. Prove in 3 dimensions: ∇ × (∇φ) = 0 3. Prove in 3 dimensions: (?∙∇) ?= −? × (∇ × ?)+ ∇((?∙?)/ 2)

1. Prove that {2k+1: k ∈ Z}={2k+3 : k ∈ Z} 2. Prove/disprove: if p and...

1. Prove that {2k+1: k ∈ Z}={2k+3 : k ∈ Z} 2. Prove/disprove: if p and q are prime numbers and p < q, then 2p + q^2 is odd (Hint: all prime numbers greater than 2 are odd)

Prove that if F is a field and K = FG for a finite group G...

Prove that if F is a field and K = FG for a finite group G of automorphisms of F, then there are only finitely many subfields between F and K. Please help!

Let K be a field. Show that the category of vector spaces over K is an...

Let K be a field. Show that the category of vector spaces over K is an Abelian category.

Let E/F be an algebraic extension. Let K and L be intermediate fields (i.e. F ⊆...

Let E/F be an algebraic extension. Let K and L be intermediate fields (i.e. F ⊆ K ⊆ E and F ⊆ L ⊆ E). (i) Prove that if the extension K/F is separable then the extension KL/L is separable. (ii) Prove that if the extension K/F is normal then the extension KL/L is normal. Note: To make things easier for you, you can assume that E/F is finite (hence all extensions are finite),

a. Prove the following using suitable algebraic identities 432 16292 i.(?− ?)+2??= ?+ ? 34 916...

a. Prove the following using suitable algebraic identities 432 16292 i.(?− ?)+2??= ?+ ? 34 916 ii. (? − ?)(? + ?) + (? − ?)(? + ?) + (? − ?)(? + ?) = 0 b. Use (? + ?)(? + ?) = ?2 + (? + ?)? + ?? to find i. 103 × 98 ii. 9.7 × 9.8

Prove that there must be uncountably many more real numbers that are not Algebraic

Prove that there must be uncountably many more real numbers that are not Algebraic