For the apparatus used in this laboratory, the centripetal force applied to any mass is the...

(1) What is centrifugal force and how is it related to centripetal force? (2) When the...

(1) What is centrifugal force and how is it related to centripetal force? (2) When the centripetal force and mass of a rotating body are held constant, what will to happen to the period (T) if the radius of rotation is increased?

Centripetal Force In your text, the author derived an equation for centripetal acceleration starting with a...

Centripetal Force In your text, the author derived an equation for centripetal acceleration starting with a particle moving with constant speed in a circle of radius r. 1. In the space provided below, show this derivation in detail. See Section 6.2 in your book. 2. In addition, apply Newton's 2nd law to this particle to show that the magnitude of the net force responsible for the motion is given by the following equation. Fc=mv^2/r This net force, which is the...

To see that the mass moves outward from the sensor due to centripetal force. Disconnect the...

To see that the mass moves outward from the sensor due to centripetal force. Disconnect the carriage from the string and push it to the very center of the rod. Hold the rod steady and check to see the carriage does not slide outwards. If it does your apparatus is not level and must be adjusted. Once the carriage remains still at the center, turn the bar very slowly until it starts moving outwards, and then immediately stop turning the...

Centripetal Force & Rotational Kinematics Lab What will happen if we increase the mass by a...

Centripetal Force & Rotational Kinematics Lab What will happen if we increase the mass by a factor of 2 or decrease our mass by a factor of 2? JUSTIFY YOUR ANSWER MATHEMATICALLY ASSUMING CONSTANT RADIUS AND SPEED!

Earth’s equatorial radius is about 6378 km. What is the centripetal acceleration experienced by a person...

Earth’s equatorial radius is about 6378 km. What is the centripetal acceleration experienced by a person standing at the Equator due to Earth’s rotation? (Answer using SI units) Imagine the same person standing at the Equator of planet X, which has the same radius and mass as the Earth, but a shorter, 8-hour long day. What is the centripetal acceleration experience by this person? Based on your calculations, how does the person’s weight differ between the two locations? The Earth...

What force, applied tangentially to the Earth along 45° of latitude in the direction of rotation...

What force, applied tangentially to the Earth along 45° of latitude in the direction of rotation for 1 day would result in a new day length that is shorter by 5.9 seconds? The Earth has mass 5.98x1024kg and radius 6380 km. The answer should be a value times 10^18N! Thank you.

MOMENT OF INERTIA LAB Apparatus Only (P3) With Masses (P4) With Block (P5) Setup You have...

MOMENT OF INERTIA LAB Apparatus Only (P3) With Masses (P4) With Block (P5) Setup You have a T-shaped apparatus that can spin about a vertical axis. One end of a light string is wrapped around the vertical shaft of the apparatus. The other end passes over a pulley and has a known mass hung from it to establish tension in the string. By measuring the acceleration of the hanging mass, the rotational inertia of the apparatus can be determined. Specifically,...

In the figure, what magnitude of force Upper F Overscript right-arrow EndScripts applied horizontally at the...

In the figure, what magnitude of force Upper F Overscript right-arrow EndScripts applied horizontally at the axle of the wheel is necessary to raise the wheel over an obstacle of height h = 0.396 m? The wheel's radius is r = 0.503 m and its mass is m = 1.25 kg.

A single axis accelerometer is mounted on a rotating wheel so that its measurement axis is...

A single axis accelerometer is mounted on a rotating wheel so that its measurement axis is along a radius vector which is perpendicular to the wheel’s axis of rotation at a distance, R. The wheel’s rotation axis is tilted at an angle θ from the local vertical direction in a constant gravity field, ?⃗. For example, at θ = 0, the wheel’s rotation axis is aligned with ?⃗ and the accelerometer’s measurement axis is in the local horizontal plane (perpendicular...

Question 1: Mark True or False beside each statement below: _______(a) The center of mass (gravity)...

Question 1: Mark True or False beside each statement below: _______(a) The center of mass (gravity) of any object must lie on a point within or on the body of each object. _______(b) The torque due to a force is independent of the choice of axis of rotation. _______(c) If the forces on an object balance, then this object cannot experience any rotation. _______(d) If the torques on an object balance, then this object cannot have angular acceleration. _______(e) If...