Assuming that the system is in equilibrium, find the value of m3, knowing that: r1 = 1.8 m r2 = 0.6 m r3 = 1.6 m m1 = 11.6 kg m2 = 3.8 kg m3 = ?
Q: The cabinet has a mass of 100kg. It therefore has a normal force of _________ N and a friction force…
A:
Q: Seven identical springs are placed side by side (in parallel, like the two springs in the figure),…
A:
Q: A force is specified by the vector F = (160i + 120j - 180k) N. Calculate the angles made by F with…
A: Given data The force equation is given as F=160i+120j-180k N. Now, from the given equation Fx =…
Q: A spring hangs vertically next to a ruler. The end of the spring is next to 15 cm mark on the…
A: Given Data: The mass of spring is, m=2.0 kg The spring constant is, k=51 N/m The expression for…
Q: What mass of gasoline (in kg) can be contained in a fuel tank whose dimensions are 44 cm x 82 cm x…
A: Density is a measure of mass per volume. Density = mass/volume So, Mass = density × volume
Q: Find the angle necessary to balance the following 2 masses in a plane. The first mass is 0.17 kg at…
A: First mass: The position of the first mass: The angle of the first mass: Second mass: The position…
Q: Problem 5 An 18-N weight is held by two strings, as show. What are both tensions T₁ and T₂?
A: Weight=18 Nvalues of T1 and. T2values of T1 and. T2
Q: The springs BA and BC each have a stiffness of 500 N/m and an unstretched length of 3 m. Determine…
A:
Q: The figure shows a container of mass m, = 3.9 kg connected to a block of mass m, by a cord looped…
A:
Q: when a mass of 50 g is attached to a spring, the spring displaces 7.6 cm. Calculate the spring…
A: Mass (m) = 50 g = 0.05 kg displacement (d) = 7.6 cm = 0.076 m
Q: A 4.5 kg mass is attached to a compressed spring and the spring is released. If the mass initially…
A:
Q: A 110 g ball bobbing up and down on the ocean as the waves roll by has a vertical position that can…
A:
Q: Box Mass=64.4 kg T1 = 39.4° T2 = 53.6° F = 2984.3 N Pdynamic = 0.15 µstatic = 0.38 What is the force…
A: Mass of object is Angles are and Applied force is Coefficient of dynamic friction is Coefficient of…
Q: determine the x and y direction force components of the following force system
A:
Q: A freezer is on a pair of supports in A and a pair of supports in B. The weights of various parts of…
A: Let the vertical force at A and B be defined as Ay and By. Therefore, at equilibrium, the sum of the…
Q: A 100 kg bx rests on a horizontal floor. The coefficient of static friction is us = 0.40, and the…
A: Mass of object is Coefficeint of static friction is Coefficient of kinetic friction is…
Q: A 10lb block is in equilibrium. What is the magnitude of the frictional force between this block and…
A:
Q: A desperate hiker has to think fast to help his friend who has fallen below him. Quickly, he ties a…
A:
Q: A rectangular plate is supported by three cables as shown. Knowing that the tension in cable AB is…
A:
Q: 13-5. If blocks A and B of mass 10 kg and 6 kg respectively, are placed on the inclined plane and…
A:
Q: 2. Bones and Muscles. A patient in therapy has a forearm that weighs -20.5Nj and that lifts a…
A: To get the resultant vector from the vectors , resolve these vector in x and y direction and…
Q: International computer communications are often carried by optical fibers in cables laid along the…
A:
Q: For a 2D problem in the x-y plane, select the three equations that satisfy the static equilibrium:…
A:
Q: The Drag Force on a race car travelling with a velocity of vis given by, FD = 1/2 CD APV ² Where:…
A: The drag force is given by=0.5CdAPaV2 The range of velocity=18m/s to 55m/s Coefficient of drag =0.9…
Assuming that the system is in equilibrium, find the value of m3, knowing that:
r1 = 1.8 m
r2 = 0.6 m
r3 = 1.6 m
m1 = 11.6 kg
m2 = 3.8 kg
m3 = ?
Step by step
Solved in 2 steps with 2 images
- The coefficient of friction between the wheels of Yamaha motorcycle and the dry pavement is 0.79. An animal walks out into the road, causing a motorcyclist to slam on the brakes. The wheels stop turning, but the tires skid along the road, causing intense friction and heat. Determine the magnitude (positive) of the acceleration which the 217-kg motorcycle experiences while skidding to a stop. The mass includes the rider. Answer: m/s/s (or m/s²)Problem#5 1. Compute the magnitude of the resultant R of the force system shown below. 2. Compute the inclination 0 of the resultant R with respect to the X axis. Resultant R 1.57.2 2.37.2 3. 47.2 4. 40.7 Angle 0 1. 20.1 2. 10.1 3. 11.0 4. 15.2 F4 = 20 N F3 = 60 N 20° F₁ = 50 N 10° X F₂=70 NEach box weighs 10 Ib. The coefficient of static friction between box A and box B is 0.2, and the coeficient of static friction between box B and the inclined surface is 0.3. What is the largest angle delta, for which box B will not slip? * 38.7 36.5 40.4 45.0 40.0° What is the normal force (in pounds) between the two block? * 7.7 7.1 8.0 7.6 7.8 What is the normal force (in pounds) between block B and the inclined floor? 15.3 15.2 16.1 15.6 14.1
- i need the answer quicklyA physics student, in a stationary elevator, places a 240.0 g mass on an electronic balance. The student hits the elevator button and it begins to move upwards. While the elevator is moving, the student records this information Time = 0 to 3.0 sec the balance reads 278 grams Time = 3.0 - 12 sec the balance reads 240. grams Time = 12.0 to 15.0 sec the balance reads 192 gram How far up (in meters) did the elevator travel? Consider: UP to be (+), DOWN to be (-) and g =9.8 m/s2 . ROUND YOUR ANSWER TO A WHOLE NUMBER of meters (no decimal places) HINT: This problem requires finding THREE different displacements and adding them up! 2nd HINT: You will need to (A) use your equations of motion or (B) make a v-t graph to find those displacements!A bucket that has a mass of 25 kg when filled with sand need to be lifted to the top of a 10 meter tall building. You have a rope that has a mass of 0.4 kg/m that must be secured to the bucket. It takes 1 meter of rope to secure the bucket. Once the bucket reaches the top of the building it only has mass 14 kg because there was a hole in the bottom and sand was leaking out at a constant rate while it was being lifted to the top of the building. Find the work done lifting the bucket (sand and rope) to the top of the building.
- ved 161 A single cable is wrapped from the center of pulley A, around pulley B, and around pulley A. This cable is pulled downward at 2 m/s. At what speed does pulley B move upward? V = 1 S L= take a time derivitive 0-2 VAB+ VAC dB C WEIGHT 2 m/s dePART A) What is the maximum force that can be applied to a bone whose minimum cross-sectional area is 3.0cm^2? (This is approximately the cross-sectional area of a tibia, or shin bone, at its narrowest point.) Express your answer using two significant figures. PART B) Estimate the maximum height from which a 70kg man could jump and not fracture the tibia. Take the time between when he first touches the floor and when he has stopped to be 0.006s, and assume that the stress is distributed equally between his legs. Express your answer using two significant figures. Thank you!!!Please Asap
- A block having a mass of m = 19.5 kg is suspended via two cables as shown in the figure. The angles shown in the figure are as follows: α = 15° and β = 28°. Solve for the numeric value of T1 in newtons. Solve for the numeric value of T2 in newtonsFigure x Part A - Moment due to a force specified by magnitude and endpoints F As shown, a member is fixed at the origin, point O, and has an applied force F, the tension in the rope, applied at the free end, point B. (Figure 1) VE ΑΣΦ ↓↑ vec Mo 0.013,97.9, - 196 Submit The force has magnitude F = 140 N and is directed as shown. The dimensions are x₁ = 0.450 m, x₂ = 1.70 m, y₁ = 2.60 m, and z₁ = 1.30 m. B What is the moment about the origin due to the applied force F? Express the individual components of the Cartesian vector to three significant figures, separated by commas. ► View Available Hint(s) Previous Answers X Incorrect; Try Again; 4 attempts remaining 1 of 3 ? i, j, k] N · m1.Given the diagram of vectors v and w below (a) Use the graph to geometrically find v + w (b) Use the graph to geometrically find v – w (c) Write v in component form: _____________ (d) Write w in component form: _____________ (e) Algebraically calculate the sum v + w