![Determine the reactions at the supports. First, determine the equivalent load [kN] as<br>required below and provide the location of each one from A [m].<br>The distributed load equivalents MUST be ONLY 2. One for the triangular distribution (FR1)<br>and the other for the rectangular distribution (FR2).<br>6 kN/m<br>Scale: 1 unit = 0.5 m<br>FR1-<br>FR2-<br>Reaction1 (if present – specify [<br>Reaction2 (if present – specify [<br>{kN]; Location from A =,<br>{kN]; Location from A =<br>1), at A =<br>1), at A =<br>m<br>[kN]<br>[kN]<br>Reaction1 (if present – specify [<br>Reaction2 (if present – specify [<br>1), at B =<br>1), at B =<br>[kN]<br>[kN]<br>](https://s3.us-east-1.amazonaws.com/storage.unifolks.com/qimg-008/008_uzrwzz0-gvb14plq.jpeg)
Extracted text: Determine the reactions at the supports. First, determine the equivalent load [kN] as required below and provide the location of each one from A [m]. The distributed load equivalents MUST be ONLY 2. One for the triangular distribution (FR1) and the other for the rectangular distribution (FR2). 6 kN/m Scale: 1 unit = 0.5 m FR1- FR2- Reaction1 (if present – specify [ Reaction2 (if present – specify [ {kN]; Location from A =, {kN]; Location from A = 1), at A = 1), at A = m [kN] [kN] Reaction1 (if present – specify [ Reaction2 (if present – specify [ 1), at B = 1), at B = [kN] [kN]