The method used to determine the measured mass of an object accurately is by using a calibrated scale or balance. The object is placed on the scale, and the reading displayed on the scale is the measured mass of the object.
Finding the volume of an irregular object is called displacement method or water displacement method, where the object is submerged in water in a container and the volume of water displaced is measured to determine the volume of the object.
Two measurements needed to determine density are the mass of the object and its volume. Mass can be measured using a scale, while volume can be measured using a ruler or by water displacement method. Density is calculated by dividing the mass of the object by its volume.
Mass is measured accurately and precisely in scientific experiments and everyday life using instruments such as balances and scales. These instruments use the force of gravity to determine the mass of an object by comparing it to known standards. The mass of an object is typically measured in units such as grams or kilograms.
No, the motion of an object cannot be accurately measured simply by looking at it. To measure an object's motion, you need to track its position over time using tools like rulers, stopwatches, or motion sensors. By analyzing the data collected, you can determine the object's speed, velocity, and acceleration.
A pyrometer measures high temperatures accurately by detecting the infrared radiation emitted by an object. The device then converts this radiation into a temperature reading, providing a non-contact method for measuring temperature without affecting the object being measured.
Finding the volume of an irregular object is called displacement method or water displacement method, where the object is submerged in water in a container and the volume of water displaced is measured to determine the volume of the object.
Objects with irregular shapes (e.g., a crumpled paper ball) or objects that dissolve in water (e.g., sugar) cannot be accurately measured using the water displacement method, as it relies on the volume of water displaced by the object.
Two measurements needed to determine density are the mass of the object and its volume. Mass can be measured using a scale, while volume can be measured using a ruler or by water displacement method. Density is calculated by dividing the mass of the object by its volume.
Mass is measured accurately and precisely in scientific experiments and everyday life using instruments such as balances and scales. These instruments use the force of gravity to determine the mass of an object by comparing it to known standards. The mass of an object is typically measured in units such as grams or kilograms.
No, the motion of an object cannot be accurately measured simply by looking at it. To measure an object's motion, you need to track its position over time using tools like rulers, stopwatches, or motion sensors. By analyzing the data collected, you can determine the object's speed, velocity, and acceleration.
A pyrometer measures high temperatures accurately by detecting the infrared radiation emitted by an object. The device then converts this radiation into a temperature reading, providing a non-contact method for measuring temperature without affecting the object being measured.
They measure the velocity of the object after applying a accurately measured force.
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Objects in a compound light microscope are typically measured by magnification levels, which determine how much larger the object appears compared to the naked eye. Additionally, objects can be measured in micrometers (μm) or nanometers (nm) to quantify their size and dimensions accurately.
To accurately measure buoyancy in an object or substance, you can use a scale to measure its weight in air and then in water. The difference in weight between the two measurements can help determine the buoyant force acting on the object, which is equal to the weight of the water displaced by the object. This method is known as Archimedes' principle and is commonly used to measure buoyancy.
Inertial mass can be accurately measured by using a balance scale and comparing the force needed to accelerate an object to a known acceleration. This method is based on Newton's second law of motion, which states that force is equal to mass times acceleration. By measuring the force and acceleration, one can calculate the inertial mass of an object.
In scientific experiments, mass is accurately measured using a balance or scale that is calibrated and sensitive to small changes in weight. The object being measured is placed on the balance, and the reading displayed is the mass of the object. It is important to ensure the balance is properly calibrated and that the object is placed carefully to get an accurate measurement.