Weight stack assemblies for exercise apparatuses

What is claimed is: 1. A weight stack assembly for an exercise apparatus, the weight stack assembly comprising: a plurality of primary weights that are stacked in a vertical direction, wherein each primary weight in the plurality of primary weights extends in the vertical direction, in a horizontal direction that is perpendicular to the vertical direction, and in a lateral direction that is perpendicular to the vertical direction and perpendicular to the horizontal direction; a plurality of secondary weights that are stacked in the vertical direction and are located next to the plurality of primary weights in the lateral direction, wherein each secondary weight in the plurality of secondary weights extends in the vertical direction, horizontal direction, and lateral direction; a head plate on top of the plurality of primary weights in the vertical direction; a primary weight selector mechanism on the head plate, wherein the primary weight selector mechanism is configured to couple a user force receiving member to one or more of the plurality of primary weights; a secondary weight selector mechanism on the head plate, wherein the secondary weight selector mechanism is configured to couple the head plate to a first secondary weight in the plurality of secondary weights and to couple the head plate to a second secondary weight in the plurality of secondary weights; wherein the secondary weight selector mechanism is configured to engage with the first secondary weight so that the first secondary weight remains balanced in the horizontal direction when a force is applied to the user force receiving member, and wherein the secondary weight selector mechanism is further configured to engage with the second secondary weight so that the first and second secondary weights remain balanced in the horizontal direction when the force is applied to user force receiving member. 2. The weight stack assembly according to claim 1 , wherein the plurality of primary weights are longer in the horizontal direction than the lateral direction and wherein the plurality of secondary weights are longer in the horizontal direction than the lateral direction. 3. The weight stack assembly according to claim 2 , wherein the first secondary weight is vertically stacked on top of the second secondary weight. 4. The weight stack assembly according to claim 3 , wherein each secondary weight in the plurality of secondary weights comprises a body and a pick-up bracket that vertically extends from the body. 5. The weight stack assembly according to claim 4 , wherein the secondary weight selector mechanism comprises a plurality of engagement pins that extend in the lateral direction, each engagement pin in the plurality of engagement pins being configured to engage with only one of the pick-up brackets of the plurality of secondary weights. 6. The weight stack assembly according to claim 5 , wherein each pick-up bracket comprises an aperture that is configured to receive at least one of the engagement pins in the plurality of engagement pins. 7. The weight stack assembly according to claim 6 , wherein the apertures of the pick-up brackets are aligned in the lateral direction so as to define a lateral through-path for the plurality of engagement pins. 8. The weight stack assembly according to claim 7 , wherein the plurality of engagement pins comprises a first engagement pin and a second engagement pin, wherein in the lateral direction the first engagement pin is shorter than the second engagement pin, and wherein the first engagement pin is configured to engage with the pick-up bracket of the first secondary weight and wherein the second engagement pin is configured to engage with the pick-up-bracket of the second secondary weight. 9. The weight stack assembly according to claim 8 , wherein engagement of the first engagement pin with the pick-up bracket of the first secondary weight couples the first secondary weight and not the second secondary weight to the head plate and wherein engagement of the second engagement pin to the pick-up bracket of the second secondary weight couples both of the first and second secondary weights to the head plate. 10. The weight stack assembly according to claim 9 , wherein the pick-up brackets of the first and second secondary weights are configured such that the second engagement pin extends through and does not engage with the pick-up bracket of the first secondary weight when the second engagement pin engages with the pick-up bracket of the second secondary weight and the force is applied to the user force receiving member. 11. The weight stack assembly according to claim 10 , wherein the secondary weight selector mechanism comprises a rotary member that is configured to sequentially move the first and second engagement pins into a position in which the first and second engagement pins can engage with the pick-up brackets of the first and second secondary weights, respectively. 12. The weight stack assembly according to claim 11 , wherein the rotary member is biased towards the plurality of secondary weights in the lateral direction. 13. The weight stack assembly according to claim 12 , wherein the rotary member comprises an axle and a plate on the axle, wherein the first and second engagement pins extend from the end plate in the lateral direction. 14. The weight stack assembly according to claim 13 , comprising a handle on the axle, opposite of the end plate, wherein the handle is configured to be pulled by a user against the bias to disengage the secondary weight selector mechanism from the plurality of secondary weights. 15. The weight stack assembly according to claim 1 , wherein the first secondary weight is vertically stacked on top of the second secondary weight in the vertical direction, and wherein each weight in the plurality of secondary weights comprises a pair of bushings that are spaced apart in the horizontal direction and are configured to slide along guide rods in the vertical direction. 16. The weight stack assembly according to claim 15 , wherein the set of bushings slide along the guide rods, independently of the head plate. 17. The weight stack assembly according to claim 15 , wherein the first secondary weight comprises an inner surface and an opposite outer surface, wherein the inner surface of the first secondary weight faces the plurality of primary weights, wherein the second secondary weight comprises an inner surface and an opposite outer surface, wherein the inner surface of the second secondary weight faces the plurality of primary weights, wherein the pick-up bracket of the first secondary weight is attached to the inner surface of the first secondary weight, and wherein the pick-up bracket of the second secondary weight is attached to the outer surface of the second secondary weight. 18. The weight stack assembly according to claim 17 , wherein the inner surface of the first secondary weight comprises a cavity in which the pick-up bracket is mounted. 19. The weight stack assembly according to claim 1 , wherein the primary weight selector mechanism comprises a bayonet that extends vertically through the plurality of primary weights in the vertical direction and is configured to receive a selector pin extending in the horizontal direction for coupling one or more of the primary weights to the head plate. 20. The weight stack assembly according to claim 1 , comprising a pair of bushings on the head plate, the bushings being configured to slide along guide rods that extend in the vertical direction, indep