Of course.
A practical example of gravity acting on a moving object would be a tennis ball moving through the air. Gravity pulls the ball downward, causing it to fall towards the ground while in motion. This interaction between gravity and the moving ball demonstrates how gravity affects objects in motion in everyday scenarios.
When a ball is not moving, the force acting on it would be the force of gravity pulling it down towards the Earth, and if the ball is on a surface, there would also be a normal force acting upwards to counteract gravity. These two forces would be balanced, resulting in a net force of zero and causing the ball to remain stationary.
An example of gravity acting on a moving object is a ball thrown into the air. As the ball moves upwards, gravity acts to pull it back down towards the earth, slowing its vertical motion until it eventually falls back to the ground.
When a car is not moving, the main forces acting on it are gravity pulling it downward and the normal force from the ground pushing upward to support the car's weight. There may also be frictional forces between the tires and the road, as well as air resistance acting on the car.
The force acting on the pen could include gravity (pulling it downwards), friction (if it's moving across a surface), and possibly air resistance if it's moving through the air.
Yes...gravity
A practical example of gravity acting on a moving object would be a tennis ball moving through the air. Gravity pulls the ball downward, causing it to fall towards the ground while in motion. This interaction between gravity and the moving ball demonstrates how gravity affects objects in motion in everyday scenarios.
When a ball is not moving, the force acting on it would be the force of gravity pulling it down towards the Earth, and if the ball is on a surface, there would also be a normal force acting upwards to counteract gravity. These two forces would be balanced, resulting in a net force of zero and causing the ball to remain stationary.
An example of gravity acting on a moving object is a ball thrown into the air. As the ball moves upwards, gravity acts to pull it back down towards the earth, slowing its vertical motion until it eventually falls back to the ground.
When a car is not moving, the main forces acting on it are gravity pulling it downward and the normal force from the ground pushing upward to support the car's weight. There may also be frictional forces between the tires and the road, as well as air resistance acting on the car.
The force acting on the pen could include gravity (pulling it downwards), friction (if it's moving across a surface), and possibly air resistance if it's moving through the air.
The forces acting on a moving object include: gravity, friction, air resistance, and any applied forces such as pushing or pulling. These forces can affect the speed, direction, and motion of the object.
A car speeds up as a traffic light turns green.
there is no gravity,preasure or any other external force is acting on body so it is moving
You are not moving relative to the bicycle.
Constant acceleration is the resulting motion of forces acting on an unbalanced bicycle.
No,because if the car is moving at a constant velocity that means the acceleration is zero. So the net force is zero and there may be some forces acting on it. Only gravity, downward.