dynamics - moorsscience
... The gravitational field strength at Earth’s surface can be denoted by “g”. 6400 km above Earth’s surface the field strength has decreased to 2.45 N/kg [down] (12800 km above 1.09 N/kg). Mass is defined as the quantity of matter in an object (kg). The standard kilogram of comparison is a Pt-Ir bar ...
... The gravitational field strength at Earth’s surface can be denoted by “g”. 6400 km above Earth’s surface the field strength has decreased to 2.45 N/kg [down] (12800 km above 1.09 N/kg). Mass is defined as the quantity of matter in an object (kg). The standard kilogram of comparison is a Pt-Ir bar ...
ch5
... same direction as the force. Your arms exert a force upward to hold the box, but the box is moving forward as you walk. ...
... same direction as the force. Your arms exert a force upward to hold the box, but the box is moving forward as you walk. ...
UV practice
... • A location A and a location B • Either a positive or a negative small test charge that is moving from A to B. ...
... • A location A and a location B • Either a positive or a negative small test charge that is moving from A to B. ...
Rotational Motion
... constant velocity. An object’s mass is a direct measure of its inertia. In rotational motion, the individual particles have masses at different distances from the axis of rotation. The Moment of inertia is the rotational analog of mass. It is a measure of how difficult it is to change an object’s mo ...
... constant velocity. An object’s mass is a direct measure of its inertia. In rotational motion, the individual particles have masses at different distances from the axis of rotation. The Moment of inertia is the rotational analog of mass. It is a measure of how difficult it is to change an object’s mo ...
solutions to Midterm 2 - University of California, Berkeley
... where hai is the average acceleration. These can be solved to express ∆t = ...
... where hai is the average acceleration. These can be solved to express ∆t = ...
Dynamics - Newton`s 2nd Law Activity
... Be sure that the spring scale reads "0 Newtons" when nothing is hanging from it. You can "zero" it by sliding the scale up or down. Make a loop of string long enough to loop around the end of the cart and the hook of the spring scale. Be sure that the string is long enough so that you can read the s ...
... Be sure that the spring scale reads "0 Newtons" when nothing is hanging from it. You can "zero" it by sliding the scale up or down. Make a loop of string long enough to loop around the end of the cart and the hook of the spring scale. Be sure that the string is long enough so that you can read the s ...
01-4-momentum-with
... A constant force acts on a fan cart. If we double the mass of the cart (with the same force acting on the cart), has half the acceleration. Clearly the force on a cart changes the velocity of the cart. However, the rate that the velocity changes depends on the mass of the cart. Both mass and the vel ...
... A constant force acts on a fan cart. If we double the mass of the cart (with the same force acting on the cart), has half the acceleration. Clearly the force on a cart changes the velocity of the cart. However, the rate that the velocity changes depends on the mass of the cart. Both mass and the vel ...
Lab 2
... The force table is designed to help you study the properties of forces at known angles. Only when forces are along the same line do they add by ordinary algebra. If two or more forces on the same body form angles with each other, it is necessary to use geometry to find the amount and direction of th ...
... The force table is designed to help you study the properties of forces at known angles. Only when forces are along the same line do they add by ordinary algebra. If two or more forces on the same body form angles with each other, it is necessary to use geometry to find the amount and direction of th ...
Terminal Velocity Lab
... same rate. This means that no matter what the mass or size of an object is it will still fall at the same acceleration. This free fall acceleration value is -9.81 m/s2. Galileo’s theory only works in a vacuum, however. In the real world many other factors have an influence on the acceleration of a f ...
... same rate. This means that no matter what the mass or size of an object is it will still fall at the same acceleration. This free fall acceleration value is -9.81 m/s2. Galileo’s theory only works in a vacuum, however. In the real world many other factors have an influence on the acceleration of a f ...
