4.6 KiB
date, title
| date | title |
|---|---|
| 2024-09-29 | Forces Sample Test Paper |
Important
The entirety of the sample test will be of the FRQ format.
All necessary material can be found here
[!NOTE] Question 1 Friction: static and kinetic. A
10.0kg mystery box rests on a horizontal floor. The coefficient of static friction is\mu_s=0.40and the coefficient of kinetic friction is\mu_k=0.30Determine the force of friction\vec{F}_{fr}, acting on the box if a horizontal external applied force\vec{F}_Ais exerted on it of a magnitude:
A) 0
B) 10N
C) 20N
D) 38N
E) 40N
[!NOTE] Question 2 Hector is walking his dog (Fido) around the neighborhood. Upon arriving at Fidella's house (a friend of Fido's), Fido turns part mule and refuses to continue on the walk. Hector yanks on the chain with a
67.0N force at an angle of30.0\degreeabove the horizontal. Determine the horizontal and vertical components of the tension force in vector form.
[!NOTE] Question 3 Lee Mealone is sledding with his friends. Disgruntled by a coarse comment, he decides to separate from the group. He momentarily exerts a 31 N force on the rope which is attached to his $2.5$-kg sled. The rope makes an angle of
22\degreewith the nearly friction-less surface. Use the structure provided below to determine the net force on and acceleration of the sled.
[!NOTE] Question 4 The custodians clean the field house gym floor between games at the annual Holiday Basketball Classic. Chuck exerts a force on a
1.1kg push broom as he walks across the floor at a constant speed. The coefficient of friction between the floor and the broom is0.45and the broom handle makes an angle of41\degreewith the horizontal. Determine the amount of force with which Chuck pushes downward (along the handle of the broom) in order to achieve this constant speed motion.
[!NOTE] Question 5 Shriyans went rock climbing this past weekend. During one climb through a narrow vertical chimney, he supported his weight by leaning with his back against one wall of the chimney and pushing off the opposite wall with his legs. His left leg made a
26\degreeangle with the horizontal. The coefficient of friction between his back and the chimney wall is0.508. A) Determine the minimum amount of tension which would be required to support the weight of his86kg body (190 pounds). B) Determine the normal force exerted on his by the wall as a result of your answer to part A.
[!NOTE] Question 6 (Part 1) In rage and a hurry to get to his Economics class, Krishna instantaneously slams the crash bar doors leading out of Building 5. In his aggression, he exerts a space-warping
10kN (kilo-Newtons) of force on the crash bar.
If\mu_k=0.95, how quickly does the1kg,5cm deep crash bar transfer all of its momentum into the door (answer in milliseconds)?
[!NOTE] Question 7 (Part 2) If the door weighs
600N, what would its linear velocity be directly after impact?
[!NOTE] Question 8 (Part 3) Given that there exists a wall initially on the same plane as the door before the door is set in motion, in how many seconds,
s, does the door hit the wall if the door is 2 meters wide?
[!NOTE] Question 9 How much force is needed to pull a spring with a spring constant of
20N/m a distance of25cm?
[!NOTE] Question 10 A spring is pulled to
10cm and held in place with a force of500N. What is the spring constant of the spring?
[!NOTE] Question 11 Suppose a 60.0-kg woman floats in fresh water with 97.0% of her volume submerged when her lungs are full of air. What is her average density?
[!NOTE] Question 12 A solid metal ball is falling in a long liquid column and has attained terminal velocity
= 2 \tfrac{m}{s}. Find the viscosity of the liquid if the radius of metal ball isr = 5cm and its density\rho_s = 8050 \frac{\mathrm{kg}}{\mathrm{m^3}}(density of liquidl = 1000 \frac{\mathrm{kg}}{\mathrm{m^3}}andg = 10 \tfrac{\mathrm{m}}{{\mathrm{s}^2}})
[!NOTE] Question 13 Lakshman (
100kg) stands upon a wooden board - weighing100N - which is set upon a 3x3 array of springs with a gap in the center, looking like:
Column1 Column2 Column3 \psi\psi\psi\psi<empty>\psi\psi\psi\psiIf they collectively traveled ,via compression,
10cm, what is their average spring constant?