The errors that may occur are:
Differences in height that mentos is dropped from (if performed more than once, when comparing), If you accidentally shook the coke before performing the experiment and different flavours of mentos being used without noticing (eg. if using a fruit flavour pack, using all the flavours instead of using just one). I hope this makes sense and helps :)
control
Systematic Errors: Errors due to the design and execution of the experiment. They can be identified through a careful analysis of the experiment and associated experiments, and measures can be taken to correct them. Systematic errors occur with the same magnitude and sign every time the experiment is performed, and affect the accuracy of the results, but not the precision. If an experiment has small systematic errors, it is accurate. Random Errors: Errors due to indeterminate causes throughout the experiment, such as unpredictable mechanical and electrical fuctuations affecting the operation of the instrument or experimental apparatus or even human errors arising from psychological and physiological limitations. They occur with a different sign and magnitude each time an experiment is executed. If an experiment has small random errors, it is precise.
Experimental errors occur when the performer of experiment make a mistake. now Performer may be a human or it can be a machine or any apparatus and mistake may be of intentional, Conventional or mistake by mistake.
No, it is only a probabilistic statement.
There are several types of bugs that can affect software development, including syntax errors, logic errors, runtime errors, and semantic errors. Syntax errors occur when code is not written correctly according to the programming language rules. Logic errors occur when the code does not produce the expected output due to flawed reasoning. Runtime errors occur during the execution of the program and can cause it to crash. Semantic errors occur when the code runs without errors but does not produce the desired outcome.
Recorded measurements in an experiment are quantitative data collected during the experiment. These measurements are used to analyze the outcomes of the experiment and draw conclusions based on the data. Examples include time taken for a reaction to occur, temperature changes, distance moved by an object, and weight of a substance.
false
Yes
because it has carbonation which also means "fizz". the mentos has a co2 molecule that changes into gas.
If mistakes occur during cell division, they can lead to mutations in DNA, potentially causing genetic disorders or cancer. The cell's repair mechanisms can sometimes correct these mistakes, but if they persist, they can be passed on to daughter cells. Monitoring and regulating cell division is crucial to prevent the accumulation of such errors.
Percent yield greater than 100% can occur due to impurities in the final product, incomplete reactions, or errors in the measurements taken during the experiment. It is a sign that not all of the reactants were converted to the desired product, leading to a higher yield than theoretically expected.
Performing titration multiple times helps ensure the accuracy and precision of the results by minimizing errors that can occur during the experiment, such as variations in measurement technique or equipment. The average of multiple titrations can provide a more reliable value for the concentration of the analyte being determined.