inertia and potential energy
Gravitational acceleration is defined as the acceleration of an object caused by the force of gravitation, where all small bodies accelerate in a gravitational field at the same rate relative to the center of mass. Uniform linear acceleration is when a body moves in a straight line and accelerates at a constant rate, and the body is said to have a uniformly accelerated linear motion.
The perception of the pull of gravity and linear acceleration is the result of the forces acting on objects. Gravity causes objects to be attracted to the center of mass of another object (like the Earth), while linear acceleration results in a change in an object's velocity over time. These forces can be felt by objects and cause them to move in a predictable manner.
linear is which is on a straight path and circular motion is which has a curved path. *In a uniform linear motion,the velocity is constant and the acceleration is zero.So,uniform linear motion is an unaccelerated motion. *In uniform circular motion the velocity can be variable although the speed is uniform.So,it is an accelerated motion.
The inner ear's vestibular system is responsible for detecting linear acceleration, which includes changes in motion like speeding up or slowing down. Gravity is sensed by the otolith organs within the vestibular system, specifically the utricle and saccule, which detect changes in head position and orientation relative to gravity.
In rotational motion, linear acceleration and angular acceleration are related. Linear acceleration is the rate of change of linear velocity, while angular acceleration is the rate of change of angular velocity. The relationship between the two is that linear acceleration and angular acceleration are directly proportional to each other, meaning that an increase in angular acceleration will result in a corresponding increase in linear acceleration.
Gravitational acceleration is defined as the acceleration of an object caused by the force of gravitation, where all small bodies accelerate in a gravitational field at the same rate relative to the center of mass. Uniform linear acceleration is when a body moves in a straight line and accelerates at a constant rate, and the body is said to have a uniformly accelerated linear motion.
If a force acts in a direction which passes through the centre of gravity of the object then it will impart no rotational acceleration; only linear acceleration.
Not necessarily. The equation of a projectile, moving under constant acceleration (due to gravity) is a parabola - a non-linear equation.
The perception of the pull of gravity and linear acceleration is the result of the forces acting on objects. Gravity causes objects to be attracted to the center of mass of another object (like the Earth), while linear acceleration results in a change in an object's velocity over time. These forces can be felt by objects and cause them to move in a predictable manner.
linear is which is on a straight path and circular motion is which has a curved path. *In a uniform linear motion,the velocity is constant and the acceleration is zero.So,uniform linear motion is an unaccelerated motion. *In uniform circular motion the velocity can be variable although the speed is uniform.So,it is an accelerated motion.
Gravity and linear acceleration are sensed in the inner ear's vestibular system. The vestibular system detects changes in head position and movement, providing information to the brain about spatial orientation and balance. This information is crucial for maintaining stability and coordinating body movements.
The inner ear's vestibular system is responsible for detecting linear acceleration, which includes changes in motion like speeding up or slowing down. Gravity is sensed by the otolith organs within the vestibular system, specifically the utricle and saccule, which detect changes in head position and orientation relative to gravity.
In rotational motion, linear acceleration and angular acceleration are related. Linear acceleration is the rate of change of linear velocity, while angular acceleration is the rate of change of angular velocity. The relationship between the two is that linear acceleration and angular acceleration are directly proportional to each other, meaning that an increase in angular acceleration will result in a corresponding increase in linear acceleration.
The otolithic organs within the cochlea, known as the saccule and utricle, are responsible for sensing linear acceleration. They detect changes in head position and help with balance and orientation in relation to gravity.
The angular acceleration formula is related to linear acceleration in rotational motion through the equation a r, where a is linear acceleration, r is the radius of rotation, and is angular acceleration. This equation shows that linear acceleration is directly proportional to the radius of rotation and angular acceleration.
Angular acceleration and linear acceleration are related through the radius of the rotating object. The angular acceleration is directly proportional to the linear acceleration and inversely proportional to the radius of the object. This means that as the linear acceleration increases, the angular acceleration also increases, but decreases as the radius of the object increases.
Angular acceleration and linear acceleration are related in a rotating object through the equation a r, where a is linear acceleration, r is the radius of the object, and is the angular acceleration. This equation shows that the linear acceleration of a point on a rotating object is directly proportional to the angular acceleration and the distance from the center of rotation.