u. S points) Chloe loves her rocket shoes! I investigated whether it would be safe to buy her some actual rocket shoes. To do this, I modelled Chlo as a vertical uniform bar of length L I modelled the rocket shoes as being massless and having negligible dimensions (assumed to be a point at the end of the rod). The shoes provide a combined constant thrust of 20 N parallel to the ground. Although the shoes have wheels on them, I assumed that it would be equivalent to sliding on the ground with a kinetic friction coefficient of 0.1. In order to not tip over while the rockets are on, Chlo will need to lean forwards or backwards. What angle will she need to make with the vertical to remain stable as the rocket shoes push her forward? Make a diagram and indicate whether she needs to lean forwards or backwards. 80 cm and mass M 13 kg with rocket shoes at the bottom, as in Figure 8. F A3. (8%) Suppose the target reserve ratio is 0.15. By opening a bank account and depositing $1,000 you will increase deposit $5,000. u. S points) Chloe loves her rocket shoes! I investigated whether it would be safe to buy her some actual rocket shoes. To do this, I modelled Chlo as a vertical uniform bar of length L I modelled the rocket shoes as being massless and having negligible dimensions (assumed to be a point at the end of the rod). The shoes provide a combined constant thrust of 20 N parallel to the ground. Although the shoes have wheels on them, I assumed that it would be equivalent to sliding on the ground with a kinetic friction coefficient of 0.1. In order to not tip over while the rockets are on, Chlo will need to lean forwards or backwards. What angle will she need to make with the vertical to remain stable as the rocket shoes push her forward? Make a diagram and indicate whether she needs to lean forwards or backwards. 80 cm and mass M 13 kg with rocket shoes at the bottom, as in Figure 8. F A3. (8%) Suppose the target reserve ratio is 0.15. By opening a bank account and depositing $1,000 you will increase deposit $5,000