1. Because I can see to detect any changes or store a mental picture.
2. Because I can smell to detect an odor.
3. Because I can hear to notice any sounds produced.
4. Because I can touch to determine texture/temperature.
5. Because I can taste to see if I like chocolate or vanilla better.
When objects move, their position changes with respect to time, which can be described using concepts such as velocity and acceleration. These changes in position are governed by the laws of physics, specifically Newton's laws of motion, which explain how objects interact with forces to produce motion. Observing the motion of objects allows scientists to analyze and predict their behavior based on mathematical models and principles of motion.
Isaac Newton discovered the laws of motion by observing the motion of objects and formulating mathematical equations to describe them. His three laws of motion laid the foundation for classical mechanics and revolutionized our understanding of physics by providing a framework to explain how objects move and interact with each other.
Parallax, the apparent shift in position of objects when viewed from different perspectives, can indicate two or more distant objects. By observing how the objects appear in relation to each other from different vantage points, one can infer their separateness and distance.
Newton's laws of motion are a set of rules that are used to predict and explain the motion of objects in the world. These three laws describe how forces interact with objects to determine their motion and are fundamental principles in classical mechanics.
Luminous objects are sources that emit light, while illuminated objects are those that reflect or scatter light from a different source.
It helped them explain and describe motion
When objects move, their position changes with respect to time, which can be described using concepts such as velocity and acceleration. These changes in position are governed by the laws of physics, specifically Newton's laws of motion, which explain how objects interact with forces to produce motion. Observing the motion of objects allows scientists to analyze and predict their behavior based on mathematical models and principles of motion.
Isaac Newton discovered the laws of motion by observing the motion of objects and formulating mathematical equations to describe them. His three laws of motion laid the foundation for classical mechanics and revolutionized our understanding of physics by providing a framework to explain how objects move and interact with each other.
The best observation of refraction of light is by observing objects that are in water. By observing objects that are in water, the objects usually appear as if they are not straight.
Parallax, the apparent shift in position of objects when viewed from different perspectives, can indicate two or more distant objects. By observing how the objects appear in relation to each other from different vantage points, one can infer their separateness and distance.
What objects could describe juilet
Microscopes, telescopes, spectrometers, and cameras are commonly used apparatuses for observing different phenomena in the natural world. These tools enable scientists to visualize and analyze objects, organisms, and events at different scales and across various disciplines.
Newton's laws of motion are a set of rules that are used to predict and explain the motion of objects in the world. These three laws describe how forces interact with objects to determine their motion and are fundamental principles in classical mechanics.
newtons laws are idealised and don't involve external forces like friction and air resistance
Luminous objects are sources that emit light, while illuminated objects are those that reflect or scatter light from a different source.
By observing the movement of nearby objects.
No,two objects at different temperature does not have the same thermal energy because both objects have different temperature .object with high temperature has more thermal energy and the object with low temperature has less thermal energy.