pdf file - Wayne State University Physics and Astronomy
... ► Mass is a measure of the inertia, i.e resistance of an object to changes in its motion due to a force ► Recall: mass is a scalar quantity Units of mass ...
... ► Mass is a measure of the inertia, i.e resistance of an object to changes in its motion due to a force ► Recall: mass is a scalar quantity Units of mass ...
template
... (the water has mass and velocity in one direction, so the hose must also conserve momentum by with the product its mass and velocity equal in magnitude, but opposite in direction to the water.) ...
... (the water has mass and velocity in one direction, so the hose must also conserve momentum by with the product its mass and velocity equal in magnitude, but opposite in direction to the water.) ...
9.1 Impulse and Momentum Ancient Babylonians described
... measurement of 2 radians = 360°. The unit of radians is added for “cosmetic purposes” to provide a unit analogous to the degree. The unit of one radian is equivalent to 360° / 2, or 1 rad = 57.3°. ...
... measurement of 2 radians = 360°. The unit of radians is added for “cosmetic purposes” to provide a unit analogous to the degree. The unit of one radian is equivalent to 360° / 2, or 1 rad = 57.3°. ...
Jeopardy Motion Newtons Review
... A toy projectile is fired from the ground vertically upward with an initial velocity of +29 meters per second. The projectile arrives at its maximum altitude in 3.0 seconds. As the projectile rises and then falls back to the ground, its acceleration a: decreases, then increases b: increases, then de ...
... A toy projectile is fired from the ground vertically upward with an initial velocity of +29 meters per second. The projectile arrives at its maximum altitude in 3.0 seconds. As the projectile rises and then falls back to the ground, its acceleration a: decreases, then increases b: increases, then de ...
Circular Motion and the Law of Gravity
... The light bulb on the Ferris wheel is moving about an axis. The axis is a fixed point in the center of the Ferris wheel. Establish a reference line. Use 0° on the right side of a horizontal line. The light bulb is locate at a distance r from the axel as it moves counter clockwise from 0°. It moves t ...
... The light bulb on the Ferris wheel is moving about an axis. The axis is a fixed point in the center of the Ferris wheel. Establish a reference line. Use 0° on the right side of a horizontal line. The light bulb is locate at a distance r from the axel as it moves counter clockwise from 0°. It moves t ...
Chapter 2 Motion Along a Straight Line
... 1. A honeybee leaves the hive and travels 2 km before returning. Is the displacement for the trip the same as the distance traveled? If not, why not? 2. Two buses depart from Chicago, one going to New York and one to San Francisco. Each bus travels at a speed of 30 m/s. Do they have equal velocities ...
... 1. A honeybee leaves the hive and travels 2 km before returning. Is the displacement for the trip the same as the distance traveled? If not, why not? 2. Two buses depart from Chicago, one going to New York and one to San Francisco. Each bus travels at a speed of 30 m/s. Do they have equal velocities ...
Chapter 2 Motion Along a Straight Line
... 1. A honeybee leaves the hive and travels 2 km before returning. Is the displacement for the trip the same as the distance traveled? If not, why not? 2. Two buses depart from Chicago, one going to New York and one to San Francisco. Each bus travels at a speed of 30 m/s. Do they have equal velocities ...
... 1. A honeybee leaves the hive and travels 2 km before returning. Is the displacement for the trip the same as the distance traveled? If not, why not? 2. Two buses depart from Chicago, one going to New York and one to San Francisco. Each bus travels at a speed of 30 m/s. Do they have equal velocities ...
Force Equations
... The same because the inertia is the same. Mass stays the same, therefore inertia is the same. ...
... The same because the inertia is the same. Mass stays the same, therefore inertia is the same. ...
Forces
... • Equal and opposite forces cancel each other out, but only when applied to same objects. • Action and reaction forces do not cancel out because they act on different objects. • If you pushed on a friend’s hand with your hand with the same amount of force, neither of you would move. But if each of y ...
... • Equal and opposite forces cancel each other out, but only when applied to same objects. • Action and reaction forces do not cancel out because they act on different objects. • If you pushed on a friend’s hand with your hand with the same amount of force, neither of you would move. But if each of y ...
force
... First we need to define the word FORCE: • The cause of motion (what causes objects to move) • Two types of forces – Pushes – Pulls ...
... First we need to define the word FORCE: • The cause of motion (what causes objects to move) • Two types of forces – Pushes – Pulls ...
CH. 6 Sec. 2
... 9. What kind of thing has less inertia? a. something with a large mass b. something with a small mass c. something that is moving d. something that is not moving Original content Copyright © by Holt, Rinehart and Winston. Additions and changes to the original content are the responsibility of the in ...
... 9. What kind of thing has less inertia? a. something with a large mass b. something with a small mass c. something that is moving d. something that is not moving Original content Copyright © by Holt, Rinehart and Winston. Additions and changes to the original content are the responsibility of the in ...
FRAME-Newtons Laws
... motion or stay at a constant speed. mass of the object and the force applied to the object Ex: using seat belts in cars, roller Ex: pushing a cart with lots coasters, pulling tablecloth under of groceries, kicking a dishes football So What? (What’s important to understand about this?) ...
... motion or stay at a constant speed. mass of the object and the force applied to the object Ex: using seat belts in cars, roller Ex: pushing a cart with lots coasters, pulling tablecloth under of groceries, kicking a dishes football So What? (What’s important to understand about this?) ...
Force Diagrams
... • AKA free-body diagram. • Shows all forces acting on an object. – If you can’t draw, don’t worry! – Usu. represent objects as boxes or circles for simplicity. ...
... • AKA free-body diagram. • Shows all forces acting on an object. – If you can’t draw, don’t worry! – Usu. represent objects as boxes or circles for simplicity. ...
Feb
... 1. A spring-loaded safety valve, 80 mm diameter, is set to blow off at a pressure of 8.5 bar. The mass of the valve, spindle and spring amount to 28 kg. Find the required percentage increase in compression of the spring so that it will blow off at 13 bar. (Note, 1 bar = 105 N/m2 ) 2. A straight stee ...
... 1. A spring-loaded safety valve, 80 mm diameter, is set to blow off at a pressure of 8.5 bar. The mass of the valve, spindle and spring amount to 28 kg. Find the required percentage increase in compression of the spring so that it will blow off at 13 bar. (Note, 1 bar = 105 N/m2 ) 2. A straight stee ...
Name: Class: Date
... In your own words, write a definition of the following terms in the space provided. Inertia: The tendency of all objects to resist any change in motion ...
... In your own words, write a definition of the following terms in the space provided. Inertia: The tendency of all objects to resist any change in motion ...
