Chapter 2 Outline
... 1. Includes both speed and direction 2. Changes – speed up, slow down, turn E. Motion of the Earth’s Crust 1. Theory of Plate Tectonics a. Earth’s plates move very slowly b. 250 million years ago all one continent, Pangaea Acceleration A. Acceleration, Speed, and Velocity 1. Acceleration – rate of c ...
... 1. Includes both speed and direction 2. Changes – speed up, slow down, turn E. Motion of the Earth’s Crust 1. Theory of Plate Tectonics a. Earth’s plates move very slowly b. 250 million years ago all one continent, Pangaea Acceleration A. Acceleration, Speed, and Velocity 1. Acceleration – rate of c ...
1 - Physics World
... The acceleration of Y is two times that of X. 1. Only 2. Only 1. and 2. Only 1. and 3. Only 2. and 3. Only ...
... The acceleration of Y is two times that of X. 1. Only 2. Only 1. and 2. Only 1. and 3. Only 2. and 3. Only ...
Lectures 39, 40, 41, 42
... A bullet of mass m is fired with velocity of magnitude Vm into a block of mass M. The block is connected to a spring constant k and rests on a frictionless surface. Find the velocity of the block as a function of time. (Assume the bullet comes to rest infinitely quickly in the block, i.e. during th ...
... A bullet of mass m is fired with velocity of magnitude Vm into a block of mass M. The block is connected to a spring constant k and rests on a frictionless surface. Find the velocity of the block as a function of time. (Assume the bullet comes to rest infinitely quickly in the block, i.e. during th ...
Newton's Laws powerpoint - South Webster High School
... Deceleration is negative acceleration or slowing down Centripetal acceleration changing direction ...
... Deceleration is negative acceleration or slowing down Centripetal acceleration changing direction ...
Document
... around 54 m/s – With a parachute, terminal velocity is only 6.3 m/s • Allows a safe landing ...
... around 54 m/s – With a parachute, terminal velocity is only 6.3 m/s • Allows a safe landing ...
patterns of motion and equilibrium - SCIENCE
... An object traveling in a circular motion is always changing its direction. Therefore, its velocity is always changing, so it is accelerating. • The acceleration that occurs in circular motion is known as centripetal acceleration. ...
... An object traveling in a circular motion is always changing its direction. Therefore, its velocity is always changing, so it is accelerating. • The acceleration that occurs in circular motion is known as centripetal acceleration. ...
Ch 4 Review Worksheet
... 11) Two lifeguards pull on ropes attached to a raft. If they pull in the same direction, the raft experiences a net external force of 334N to the right. If they pull in opposite directions, the raft experiences a net external force of 105N to the left. a) Draw a free-body diagram representing the ra ...
... 11) Two lifeguards pull on ropes attached to a raft. If they pull in the same direction, the raft experiences a net external force of 334N to the right. If they pull in opposite directions, the raft experiences a net external force of 105N to the left. a) Draw a free-body diagram representing the ra ...
Physics Unit Review
... What is a reference point (also called frame of reference)? An object that appears to stay in place A change in position relative to a reference point is known as _motion___________. Write the formula for speed. D/t What is the average speed of a jet plane that flies 7200 km in 9 hours? 800 km/hr Ho ...
... What is a reference point (also called frame of reference)? An object that appears to stay in place A change in position relative to a reference point is known as _motion___________. Write the formula for speed. D/t What is the average speed of a jet plane that flies 7200 km in 9 hours? 800 km/hr Ho ...
Newton`s Laws and The Force
... net force on the toy horizontally and noting both its magnitude and direction. 18. Consider the system shown with two blocks connected by a light rope that runs over a massless pulley. The ramp is frictionless. (a) In terms of mA, mB, , and g, find an equation for the acceleration of the blocks. (T ...
... net force on the toy horizontally and noting both its magnitude and direction. 18. Consider the system shown with two blocks connected by a light rope that runs over a massless pulley. The ramp is frictionless. (a) In terms of mA, mB, , and g, find an equation for the acceleration of the blocks. (T ...
Lab 6: Work-Energy Theorem
... force? Hint: it’s not equal to mhangingg. Predict the work WT done on the cart by the string using the fact that it traveled a distance d. b. Using a motion sensor (set Capstone to measure velocity to 3 significant figures) to measure the cart’s maximum velocity. Repeat ten times, determine vexpt an ...
... force? Hint: it’s not equal to mhangingg. Predict the work WT done on the cart by the string using the fact that it traveled a distance d. b. Using a motion sensor (set Capstone to measure velocity to 3 significant figures) to measure the cart’s maximum velocity. Repeat ten times, determine vexpt an ...
forces_and_energy_review
... measure average speed? Average speed is the general speed over a distance and instantaneous speed is at one specific moment. Average speed is calculated by take the total distance traveled and dividing it by the time it takes to travel that distance. ...
... measure average speed? Average speed is the general speed over a distance and instantaneous speed is at one specific moment. Average speed is calculated by take the total distance traveled and dividing it by the time it takes to travel that distance. ...
ISChpt3-local-local
... If you know the mass of an object, you can calculate its weight using Newton’s second law ...
... If you know the mass of an object, you can calculate its weight using Newton’s second law ...
Slide 1
... Picture a washing machine starting its spin cycle; it takes time to get up to speed. Also picture how a cart on a roller coaster track entering a loop has a higher speed than it has at the top of the loop - it must be “decelerating.” Do not confuse angular acceleration with centripetal acceleration. ...
... Picture a washing machine starting its spin cycle; it takes time to get up to speed. Also picture how a cart on a roller coaster track entering a loop has a higher speed than it has at the top of the loop - it must be “decelerating.” Do not confuse angular acceleration with centripetal acceleration. ...
Chapter_6_In-class_problems_(section_by_section_notes)
... 4. A ball of mass 80 grams is swung on a string of length 75 cm in a vertical circle. Assume that an angle of 0o is formed between the string and the vertical when the ball is at its lowest possible position. If the instantaneous speed of the mass is 20 m/s, find the tension in the rope and the tota ...
... 4. A ball of mass 80 grams is swung on a string of length 75 cm in a vertical circle. Assume that an angle of 0o is formed between the string and the vertical when the ball is at its lowest possible position. If the instantaneous speed of the mass is 20 m/s, find the tension in the rope and the tota ...
Newton`s 3 Laws
... Objects at rest will stay at rest and objects in motion will stay in motion in a straight line unless acted upon by an unbalanced force Law of Inertia Laziness! Momentum and Newton’s Law Which object is likely to do more damage to a brick wall: a 5kg bowling ball moving at 1 m/sec or a .01kg ...
... Objects at rest will stay at rest and objects in motion will stay in motion in a straight line unless acted upon by an unbalanced force Law of Inertia Laziness! Momentum and Newton’s Law Which object is likely to do more damage to a brick wall: a 5kg bowling ball moving at 1 m/sec or a .01kg ...