She is at first very angry with the guy who killed Tybalt, until she realizes that he is her love and her husband Romeo.
Both Tybalt and Mercutio. Also Gregory and Sampson in the first scene of the play.
His wife, at the end of Act II.
Because she thought that he killed Tybalt, and then when the Nurse started talking bad about Romeo she got upset and reliezed that theres a reason he did this and it was probably because Tybalt tried to kill him first
Romeo kills Tybalt in Act III, after Tybalt has killed Mercutio in a duel.
Tybalt is Juliet's first cousin, being the son of Mrs. Capulet's brother. By marrying Juliet, Tybalt then also becomes Romeo's cousin by marriage.
Confusion, followed shortly by anger at Romeo.
Both Tybalt and Mercutio. Also Gregory and Sampson in the first scene of the play.
her reaction was at first she was okay with it until her and romeo got together and got married then she freaked out and she refused too
She's mad at him at first, but soon realizes that she is not being much of a faithful wife and vows to support him.
His wife, at the end of Act II.
Benvolio
Because she thought that he killed Tybalt, and then when the Nurse started talking bad about Romeo she got upset and reliezed that theres a reason he did this and it was probably because Tybalt tried to kill him first
Romeo kills Tybalt in Act III, after Tybalt has killed Mercutio in a duel.
The first time he hears that Tybalt wants to fight him in a duel, Tybalt is his cousin by marriage, although only Romeo knows this.
It is foreshadowinrg
When Romeo and Tybalt first meet, Romeo tries to defuse the tension and shows kindness towards Tybalt. He refers to Tybalt as "cousin" and expresses his love for Tybalt's family (Juliet's family) to avoid confrontation. Romeo's actions are driven by his recent marriage to Juliet and his desire to keep peace between the two families.
No, the reaction between hydrochloric acid and calcium carbonate is not a first order reaction. It is a decomposition reaction where the rate of reaction will not be constant as the concentration of the reactants change over time.