Think of a time when there was a problem on your job and you assisted in solving it. Then explain the scenario to your interviewer. For example, you are a cashier at McDonald's and a customer complained that he received cold french fries. You helped by giving the customer a fresh order of hot fries. Therefore, you response in your interview could be: "Whenever there are issues I try to solve them in a quick and timely manner. For instance, while working as a cashier at McDonald's I had an unsatisfied customer who complained of receiving cold french fries. I apologized to the customers and gave him a fresh order of hot fries. The customer left happy because I addressed his needs in a positive and quick manner."
dyitttt79
many
solved examples of normalization
duplication, separation, and cytokinesis
Problems that are not promptly solved create more problems.
Examples of rotational equilibrium problems include a beam supported at one end, a spinning top, and a rotating wheel. These problems can be solved by applying the principle of torque, which is the product of force and distance from the pivot point. To solve these problems, one must calculate the net torque acting on the object and ensure it is balanced to maintain rotational equilibrium.
Commerce problems could be solved with trade
To solve certain problems that can't be solved with simple algebra. To give just one simple example, find the maximum value of a certain function.To solve certain problems that can't be solved with simple algebra. To give just one simple example, find the maximum value of a certain function.To solve certain problems that can't be solved with simple algebra. To give just one simple example, find the maximum value of a certain function.To solve certain problems that can't be solved with simple algebra. To give just one simple example, find the maximum value of a certain function.
managing finance
what are 2 problems that were solved by the invention of trains
Some examples of simple statics problems that can be solved using basic principles of physics include calculating the forces acting on a stationary object, determining the equilibrium of a structure under various loads, and analyzing the tension in a rope supporting a hanging mass.
Hardy-Weinberg problems involve calculating allele frequencies in a population to determine if it is in genetic equilibrium. Examples include calculating the frequency of homozygous dominant, heterozygous, and homozygous recessive individuals. These problems can be solved using the Hardy-Weinberg equation: p2 2pq q2 1, where p and q represent the frequencies of the two alleles in the population.