Show that in a free group, any nonidentity element is of infinite order

Another way to show that in a free group, any non identity element is of infinite...

Another way to show that in a free group, any non identity element is of infinite order

Can there be an element of infinite order in a finite group? Prove or disprove.

Can there be an element of infinite order in a finite group? Prove or disprove.

True or False: An infinite group must have an element of infinite order. I know that...

True or False: An infinite group must have an element of infinite order. I know that the answer is false. Please give a detailed explanation. Will gives thumbs up ASAP.

find all generators of Z. let "a" be a group element that has infinite order. Find...

find all generators of Z. let "a" be a group element that has infinite order. Find all the generators of . Please prove and explain in detail please use definions and theorems. please i reallly want to understand this.

Use the Mapping Property of free groups to show that any non identity of a free...

Use the Mapping Property of free groups to show that any non identity of a free group is of infinite ordet

Is it possible for a group G to contain a non-identity element of finite order and...

Is it possible for a group G to contain a non-identity element of finite order and also an element of infinite order? If yes, illustrate with an example. If no, give a convincing explanation for why it is not possible.

suppose every element of a group G has order dividing 2. Show that G is an...

suppose every element of a group G has order dividing 2. Show that G is an abelian group. There is another question on this, but I can't understand the writing at all...

Let G be a group. g be an element of G. if <g^2>=<g^4> show that order...

Let G be a group. g be an element of G. if <g^2>=<g^4> show that order of g is finite.

Find the order of every element in the group Z2 time Z3.

Find the order of every element in the group Z2 time Z3.

Give the definition of group. Show that the identity (or neutral) element of G is unique....

Give the definition of group. Show that the identity (or neutral) element of G is unique. Moreover, show that the inverse of an element g 2 G is unique as well.