->Load testing is a type of non-functional testing.
->A load test is type of software testing which is conducted to understand the behavior of the application under a specific expected load.
->Load testing is performed to determine a systems behavior under both normal and at peak conditions.
->It helps to identify the maximum operating capacity of an application as well as any bottlenecks and determine which element is causing degradation. E.g. If the number of users are increased then how much CPU, memory will be consumed, what is the network and bandwidth response time.
*Reliability Testing is about exercising an application so that failures are discovered and removed before the system is deployed. The purpose of reliability testing is to determine product reliability, and to determine whether the software meets the customer’s reliability requirements.http://www.softwaretesting-certification.com/
Reliability testing focuses on ensuring that a system performs consistently and predictably under various conditions over time, checking for faults or failures. Load testing, on the other hand, involves evaluating how a system or application performs under anticipated usage levels, testing its ability to handle expected loads without degradation in performance.
The main difference lies in the position of the effort, load, and fulcrum in relation to each other. In a first-class lever, the fulcrum is between the effort and the load. In a second-class lever, the load is between the fulcrum and the effort. In a third-class lever, the effort is between the fulcrum and the load.
The main difference between a first class and a second class lever is the relative placement of the effort, load, and fulcrum. In a first class lever, the fulcrum is positioned between the effort and the load. In a second class lever, the load is between the fulcrum and the effort. Examples of first class levers include a seesaw, while examples of second class levers include a wheelbarrow.
The weight of a load is the force of gravity acting on an object, while the amount of effort needed to lift it is the force a person applies to overcome that weight. The difference depends on factors like the weight of the load, the distance it needs to be lifted, and the efficiency of the lifting mechanism.
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the difference is the position of the fulcrum. a first class lever has the fulcrum between the lode and applied force. a second class lever has the load between the fulcrum and applied force. A third class lever has the applied force between load and fulcrum. The load happens to be the thing that you are affecting in the system. On a seesaw the load and applied force changes as either kid goes up, but the lower kid is always the force and upper is the load with the fulcrum in the middle. this happens to be a first class lever. a second class lever could be a bottle cap opener with the fulcrum at the end the bottle cap(load) in the middle and you pushing (force) on the other. a third class lever are like tweezers with the fulcrum on the closed end, force is you pushing in the middle, and affected load is whatever you pick up. There are also compound levers like nailclippers, but by diagramming the whole system it should be pretty easy to discover that it is a first class lever. It's compund because of the use of a lever system
Functionality testing is what is expected. Load testing is what it actually did.
The difference between static load testing and dynamic load testing is that with static load testing a certain percentage of a product is tested against a group of specifications. During dynamic testing each individual product is tested against a group of standards based on previous tests.
Stress testing means increasing the load ,and cheking the performance at each level. Load testing means at a time giving more load by the expectation and checking the performance at that leval. Volume testing means first we have to apply initial load,then at certain time increase the load and check the performance.
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sudden load differ from impact load by the velocity of loading
The difference between barrel and gallen is that a barrel can load 220 litre oil and a gallon can load millions of oil.
It is testing of "how" the system works. Non functional testing may be performed at all test levels. The term non-functional testing describes the tests required to measure characteristics of systems and software that can be quantified on a varying scale, such as response times for performance testing. Types of Non-functional testing are performance testing, load testing, stress testing, usability testing, maintainability testing, reliability testing and portability testing.
what difference between residential and commercial load calculations
buckle means bending