The measurements can be said to be "near enough" (depending on how accurate the results must be).
I would take the average of the four times the measurements were recorded.
No because there are always experimental errors, instrument limitations, and deviations in measurements. This is called the uncertainty. Experimental values do not give true values but rather a value with an uncertainty.
Some of the more basic measurements of an object we can take are time and position (or distance). From these values we can calculate things (like speed and direction) that we use to describe its motion.
cost temperature speed
changing the slope of the inclined plane changes the values for velocity because of the unbalanced external force exerted on the object increases the velocity.
Decibel (dB) is the unit used to measure the intensity of sound. This unit is also used to measure signal strength and amplification values in some scenarios.
If you take a measurement multiple times, and get similar values each time, then the data is said to be very precise. If this group of data is very close to the expected value, then the data is said to be accurate. However, a set of data may be precise without being accurate if the measured values are all similar to one another, but not close to the expected value.
Any measure you like. You can choose any two values (as long as they are positive) for the two legs.
what do we call a measure that is relatively unaffected by extreme observations
The difference in measurements was approx. 0,6 %.
For a set of measurements, the mean valueis the sum of all the measurement values divided by the number of measurements in the set.
Digital multimeters are quite clever things. They can measure multiple values. The most common measurements are: Voltage - measured in volts (v) Current - measured in amperes (A) Resistance - measured in ohms (omega greek symbol) Sorry, I don't know how to type it.
A collection of facts, such as values or measurements.
a thermometer to measure temperature and a barometer to measure air pressure. These are common instruments used in meteorology and can be purchased from scientific supply stores. Additionally, you may need calibration standards or reference values to ensure accurate measurements.
because all the people are different but their heart rates and blood pressures are close to each other but vary so you have to measure heart rates etc. using a range of values being normal
You use the universal formula for gravitation. Lab measurements - such as the Cavendish balance - are used to determine the constant, G. Once this is known, you can measure the force of gravity between a known mass, and Earth, and insert the values in the formula for gravitation.
No because there are always experimental errors, instrument limitations, and deviations in measurements. This is called the uncertainty. Experimental values do not give true values but rather a value with an uncertainty.
The final keyword indicates that a variable (identifier) can not change his value. In case the variable refers to a reference variable (an object) the values of variables inside (the object) can change but the reference can be reassigned (to another object).