part2
... normal to the handle of the handoperated grinder. The gear inside the housing with its shaft and attached handle have a combined mass of 1.8 kg and a radius of gyration about their axis of 72 mm. The grinding wheel with its attached shaft and pinion (inside housing) have a combined mass of 0.55 kg a ...
... normal to the handle of the handoperated grinder. The gear inside the housing with its shaft and attached handle have a combined mass of 1.8 kg and a radius of gyration about their axis of 72 mm. The grinding wheel with its attached shaft and pinion (inside housing) have a combined mass of 0.55 kg a ...
Slide 1
... the product of the body mass m and its acceleration a Fnet = ma; a= Fnet / m Acceleration component along a given axis is caused only by sum of forces component along that axis ax = Fnet,x /m ; ay = Fnet,y /m ; az = Fnet,z /m SI unit of force Newton (N) 1N= 1kg.m/s2 ...
... the product of the body mass m and its acceleration a Fnet = ma; a= Fnet / m Acceleration component along a given axis is caused only by sum of forces component along that axis ax = Fnet,x /m ; ay = Fnet,y /m ; az = Fnet,z /m SI unit of force Newton (N) 1N= 1kg.m/s2 ...
Document
... Example: a proton-proton collision A proton collides elastically with another proton that is initially at rest. The incoming proton has an initial speed of 3.50 X 105 m/s and makes a glancing collision with the second proton*. After the collision, one proton moves off at an angle of 370 to the orig ...
... Example: a proton-proton collision A proton collides elastically with another proton that is initially at rest. The incoming proton has an initial speed of 3.50 X 105 m/s and makes a glancing collision with the second proton*. After the collision, one proton moves off at an angle of 370 to the orig ...
Lecture-15-10
... for a certain period of time, first as in (a) and then as in (b). In which case does the dumbbell acquire the greater center-of-mass speed ? ...
... for a certain period of time, first as in (a) and then as in (b). In which case does the dumbbell acquire the greater center-of-mass speed ? ...
Word
... a method of measuring the distance of a remote object (i.e. by methods involving timing a signal) Refer to your own notes for your own example ...
... a method of measuring the distance of a remote object (i.e. by methods involving timing a signal) Refer to your own notes for your own example ...
Jeopardy
... There two marbles of the same size, weight and density, yet one sinks in its container of liquid and the other floats in its container. Which of these describes the density of the different liquids? ...
... There two marbles of the same size, weight and density, yet one sinks in its container of liquid and the other floats in its container. Which of these describes the density of the different liquids? ...
UNIT 2 - Harrison High School
... Which type of graph shows changes or trends over time? Line graph Explain the difference between accuracy and precision using the dartboard example. When playing darts, accuracy would be hitting the bullseye; precision would be having all of your darts with within the same general area or having ...
... Which type of graph shows changes or trends over time? Line graph Explain the difference between accuracy and precision using the dartboard example. When playing darts, accuracy would be hitting the bullseye; precision would be having all of your darts with within the same general area or having ...
Document
... philosopher) that problems of kinetics can be solved by using the principles of statics only (the equations of equilibrium) by considering an inertia force in a direction directly opposite to the acceleration in addition to the real forces acting on the system ...
... philosopher) that problems of kinetics can be solved by using the principles of statics only (the equations of equilibrium) by considering an inertia force in a direction directly opposite to the acceleration in addition to the real forces acting on the system ...
Chapter 5: Gravity - Otto
... If only Renaissance astronomers had understood gravity, they wouldn’t have had so much trouble describing the motion of the planets, but that insight didn’t appear until three decades after the trial of Galileo. Isaac Newton started from the work of Galileo and devised a way to explain motion and gr ...
... If only Renaissance astronomers had understood gravity, they wouldn’t have had so much trouble describing the motion of the planets, but that insight didn’t appear until three decades after the trial of Galileo. Isaac Newton started from the work of Galileo and devised a way to explain motion and gr ...
Section 2.2
... The second law says that acceleration is proportional to force. If force is increased or decreased, acceleration will be increased or decreased by the same ...
... The second law says that acceleration is proportional to force. If force is increased or decreased, acceleration will be increased or decreased by the same ...
No Slide Title
... • Acceleration is proportional to the Net Force. – As the force increases, the acceleration increases – Triple the force, triple the acceleration – Without a net force, there is no acceleration and the object is in equilibrium (if at rest), or the object remains in motion at a constant velocity movi ...
... • Acceleration is proportional to the Net Force. – As the force increases, the acceleration increases – Triple the force, triple the acceleration – Without a net force, there is no acceleration and the object is in equilibrium (if at rest), or the object remains in motion at a constant velocity movi ...
Work - HRSBSTAFF Home Page
... 3) Applying a force that is perpendicular to the motion Example: You are carrying a book down the hallway. You are lifting the book (force is upwards) but your motion is forwards (perpendicular). Therefore there is no work being done on the textbook by the person ...
... 3) Applying a force that is perpendicular to the motion Example: You are carrying a book down the hallway. You are lifting the book (force is upwards) but your motion is forwards (perpendicular). Therefore there is no work being done on the textbook by the person ...
Lecture 14ba
... Section 8-4: Lever Arm • Lever Arm r = distance of the axis of rotation from the “line of action” of force F • r = Distance which is to both the axis of rotation and to an imaginary line drawn along the direction of the force (“line of action”). • Find: Angular acceleration α (force) (lev ...
... Section 8-4: Lever Arm • Lever Arm r = distance of the axis of rotation from the “line of action” of force F • r = Distance which is to both the axis of rotation and to an imaginary line drawn along the direction of the force (“line of action”). • Find: Angular acceleration α (force) (lev ...
p250t2f03
... (D) trick question, since the force and acceleration must be zero for motion with constant speed is zero. ___ 3. If the orbital distance of the moon from the earth were larger, then (A) the force of attraction between the earth and the moon would be smaller. (B) the centripetal acceleration of the m ...
... (D) trick question, since the force and acceleration must be zero for motion with constant speed is zero. ___ 3. If the orbital distance of the moon from the earth were larger, then (A) the force of attraction between the earth and the moon would be smaller. (B) the centripetal acceleration of the m ...
Law of Inertia
... to the magnitude of the net force, in the same direction as the net force, and inversely proportional to the mass of the body” * “in the same direction as the net force” ◦ a in the same direction of body’s motion speed up ◦ a in opposite direction of body’s motion slow down ◦ a at right angles t ...
... to the magnitude of the net force, in the same direction as the net force, and inversely proportional to the mass of the body” * “in the same direction as the net force” ◦ a in the same direction of body’s motion speed up ◦ a in opposite direction of body’s motion slow down ◦ a at right angles t ...
Mrs. Burns: 2012185859 Day 1 Physics consist of a variety of topics
... Hypothesis: rate of acceleration is directly related to the net force. On the other hand, the rate of acceleration is indirectly related to the mass of an object. Analysis: talk abut experimental error and reasons for it(friction). We ignored pullies too. The meanings of the equating of the line. ...
... Hypothesis: rate of acceleration is directly related to the net force. On the other hand, the rate of acceleration is indirectly related to the mass of an object. Analysis: talk abut experimental error and reasons for it(friction). We ignored pullies too. The meanings of the equating of the line. ...
Circular Motion - Manchester HEP
... This is now analogous to collisions between balls of different masses. Angular momentum is still conserved, but the moment of inertia of the two masses is no longer equal. When the lighter (lower I) object hits the heavier (higher I) one it bounces off reversing the direction of its angular velocity ...
... This is now analogous to collisions between balls of different masses. Angular momentum is still conserved, but the moment of inertia of the two masses is no longer equal. When the lighter (lower I) object hits the heavier (higher I) one it bounces off reversing the direction of its angular velocity ...