draw free body diagrams of both the person and the corresponding object
a) draw a free body diagram of a 100kg person pushing a 0.5kg water bottle on a table (bottle moves forward). explain which newtons law of motion corresponds with this
b) draw a free body diagram of a 100kg person pushing a 34kg chair on the ground (chair moves forward). explain which newtons law of motions corresponds with this
c) draw a free body diagram of a 100kg person pushing a 1900kg stationary car (car remains stationary). explain which newtons law of motions corresponds with this
draw free body diagrams of both the person and the corresponding object a) draw a free...
What does it mean when it asks to draw a free-body diagram? 14. Draw accurate free-body diagrams for the penguin in the following situations. (a) Here, you are pushing a penguin on ice. push Ice (b) Here, you are pushing a penguin on glass so that the penguin undergoes uniform motion push uniform motion Glass (c) Here, you are pushing a penguin on concrete, but the penguin remains at rest. push end no motion Concrete
Draw the free body diagrams for the figures Draw the free body Diagram for the figures below. 20 1. 65° 1.7 m 12 m S 250 m
I need help with these free body diagrams and charge diagrams please n16 Draw the free body diagram of both the point charge and the solid metal object. (Note: Each object should have more than one force vector included on it.) 17 Is the net force on the solid metal sphere directed to the left, directed to the right, or is it zero? Explain. 18 The situation below shows three neutral, conducting spheres connected by conducting rods. A positively charged...
draw free body diagrams and answer questions please Draw the free body diagram for the bob (note that the spring is not attached at this time): bobt Equilibrium Marker 2. How does spinning the bob faster affect the period (time required for 1 full revolution)? The period increases. It takes more for the bob to go around once. The period stays the same. The period decreases. It takes less time for the bob to go around once. to the centripetal...
a) Draw fully labelled free body and extended free body diagrams for the object. b) Explain what causes the object to roll instead of slide. 2. Estimate how far the Earth moves when you jump up to a height of 10 cm. Hint: The inertia of the earth is about 10^25 kg and its radius is about 10^5 km. 3. 5. A solid cylindrical object of rotational inertia, I, and radius, R, rolls down a angle e with the horizontal...
Please help and be sure to draw a good free body diagram with corresponding forces. thank you! 1. (5 points) A 5000 kg rocket is launched at an angle of e = 44.7° from rest. The rocket's engines provide a constant thrust force of thrust = 140,700 N. (a) Using a combination of dynamics and kinematics, calculate an equation that describes the rocket's vertical position as a function of its horizontal position, y(x). Your solution should include a free-body diagram...
Given Problem Without using a calculator A) draw and label free body diagrams for both masses after the rod is removed B) if the coefficient of static friction us= 0.5, find the minimum pushing force required to keep the 1-kg mass from sliding down the face of the cart g-10 m/s
Draw free-body diagrams for each of the following objects in uniform circular motion. State the force(s) providing the centripetal force. 1. The Earth orbiting the Sun 2. A car making a curve on a horizontal road 3. A ball on a string swinging in circles on a horizontal surface
Motion diagram question 19. For the following motion diagrams, draw an arrow to indicate the displacement vector between the initial and final positions. b. 40 20. In each part of Exercise 19, is the object's displacement equal to the distance the object travels? Explain. 14. For each of the following motions, draw A motion diagram and Both position and velocity graphs a. A car starts from rest, steadily speeds up to 40 mph in 15 s, moves at a constant...
4.36. For the three-degree-of-freedom mechanical system that follows, draw free-body diagrams for each of the components, carefully showing all external forces and moments. Be sure to show the reference positions for the position variables on the free-body diagrams. Directly from the component free-body diagrams, write down the equations of motion. ref k (spring) m2 12 b (dashpot) A coefficient of F-Fcos(of) y+ ref