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Why acceleration is tangent to the path?
Acceleration is tangent to the path because it is a measure of the rate of change of velocity. By being tangent to the path, acceleration describes how the direction or speed of an object is changing as it moves along a curved path. The tangential component of acceleration is responsible for changes in speed, while the normal component of acceleration is responsible for changes in direction.
What is the acceleration of a car that moves at a steady velocity of 100 km for 100 seconds?
The acceleration of the car is 0 m/s^2 because it is moving at a steady velocity, meaning there is no change in its speed over time. Acceleration is the rate of change of velocity, which is not occurring in this scenario.
A horizontal line on an acceleration graph would indicate?
-- constant acceleration -- speed increasing at a steady rate -- distance increasing as the square of the time since everything started
What is the relationship between centripetal acceleration and angular acceleration?
Centripetal acceleration and angular acceleration are related because centripetal acceleration is the linear acceleration experienced by an object moving in a circular path, while angular acceleration is the rate at which the angular velocity of the object changes. The two are connected through the equation a r, where a is the centripetal acceleration, r is the radius of the circular path, and is the angular acceleration.
What is the meaning of acceleration?
of Accelerate
What is the acceleration of a car that is going at a steady speed of 60 mph?
At a constant speed there is no acceleration. Acceleration describes a positive change in speed meaning to go faster. Deacceleration describes how fast something is slowing down. But at a constant speed of 60mph there is acceleration or deacceleration.
What does a horizontal line mean in acceleration vs time graph?
A horizontal line on an acceleration vs. time graph indicates constant acceleration over time. This means that the object is experiencing a steady rate of change in velocity.
How does linear acceleration relate to angular acceleration in rotational motion?
Linear acceleration and angular acceleration are related in rotational motion through the concept of tangential acceleration. In rotational motion, linear acceleration is the rate of change of linear velocity, while angular acceleration is the rate of change of angular velocity. Tangential acceleration is the component of linear acceleration that is tangent to the circular path of rotation, and it is related to angular acceleration through the equation at r , where at is the tangential acceleration, r is the radius of the circular path, and is the angular acceleration. This relationship shows that as the angular acceleration increases, the tangential acceleration also increases, leading to changes in the linear velocity of the rotating object.
In the late 1800s what happend to the standard of living?
it rose at a steady rate/It rose at a steady rate.
In physical science what are the 3 types of acceleration?
The three types of acceleration in physical science are constant acceleration, variable acceleration, and instantaneous acceleration. Constant acceleration is when an object changes its velocity at a steady rate, variable acceleration is when an object changes its velocity at different rates, and instantaneous acceleration is the acceleration of an object at a specific moment in time.
How can one determine the tangential acceleration of an object in motion?
To determine the tangential acceleration of an object in motion, you can use the formula: tangential acceleration radius x angular acceleration. The tangential acceleration represents the rate at which the object's speed is changing along its circular path.
What is the acceleration of a car that moves at a steady velocity of 100 kilometers per hour for 100 seconds?
If the car doesn't change direction during that 100 seconds, then it's zero. If the car's direction changes, then the acceleration isn't zero, but the question doesn't give any information from which to evaluate it.
