You can't explain it with a practical life example you need some materiel to neglect both the gravitational force and the friction force ... so if you leave it that way the mass would never move ... if you give it a little push it'll keep moving endlessly ...
Not being able to dunk because of gravity (F = ma ==> Fg = mg).
Newton's laws of motion provide a foundation for understanding and describing how objects move. They are used in various fields such as engineering, physics, and astronomy to predict and analyze motion. These laws have practical applications in everyday life, such as in designing vehicles, structures, and sports equipment.
Newton's second law of motion (F=ma) highlights the relationship between the force acting on an object, its mass, and its acceleration. In daily life, this law can be observed when pushing a heavy object requiring more force to accelerate it compared to a lighter object. It also explains why larger vehicles require more force to accelerate than smaller ones.
Newton's third law of motion states that for every action, there is an equal and opposite reaction. One example is a rocket launching, where the engines expel gas downward, propelling the rocket upward. Another example is a swimmer pushing against the water, which pushes back and propels the swimmer forward. Lastly, when you jump off a small boat, you push down on the boat, causing it to move in the opposite direction as you leap into the air.
nothing
boy is moving
There are three main types of motion in daily life: linear motion (movement in a straight line), rotational motion (spinning or revolving around an axis), and oscillatory motion (back and forth movement around a central point). These types of motion can be observed in various activities and phenomena we encounter in our day-to-day lives.
can you tell me and not ask me?!
Here's one Basketball- When you jump for a rebound for the basketball you're in motion
it is important bcoz i makes life easier and it is related 2 our life
Not being able to dunk because of gravity (F = ma ==> Fg = mg).
It is important because it makes life easier. It also makes our works faster
Motion refers to the act of changing position or location over time. It affects our daily lives by allowing us to move from place to place, perform tasks, and interact with our environment. From walking to driving, motion is integral to many activities we engage in on a daily basis.
Newton's laws of motion provide a foundation for understanding and describing how objects move. They are used in various fields such as engineering, physics, and astronomy to predict and analyze motion. These laws have practical applications in everyday life, such as in designing vehicles, structures, and sports equipment.
Newton's second law of motion (F=ma) highlights the relationship between the force acting on an object, its mass, and its acceleration. In daily life, this law can be observed when pushing a heavy object requiring more force to accelerate it compared to a lighter object. It also explains why larger vehicles require more force to accelerate than smaller ones.
Mechanical, thermal, eletrical. motion, sound, light, and chemical energy.
Examples of objects that use rotary motion in daily life include electric fans, blenders, washing machines, and car engines. These objects rely on rotating components to perform their intended functions efficiently.