
express in M-K-S units Class A load of 975 N is lifted using a wheel and...
The uniform load has a mass of 350 kg and is lifted using a uniform 45-kg strongback beam BAC and four ropes as shown (Figure 1) Figure (< 1 of 1 > 1.25 m 1.25 m 1.5 m Part A Determine the tension in each rope. Express your answer using three significant figures and include the appropriate units. HÅR O 2 ? T= Value Units Submit Request Answer Part B The force that must be applied at A. Express your...
A wheel-axle assembly is attached to a spring as shown in the figure below. The wheel-axel assembly has a mass of m=3 kg and a radius of gyration about the polar axis of kG=75mm. The spring has a stiffness of k=0.5 kN/m ( Note the units!). The system is released from rest with a spring extension of x1=0.2 m. Calculate the maximum angular velocity. Assume friction can be ignored. Provide your answers in rad/s.
help with part 5
1. A 125-kg load is lifted 12.0 m vertically with an acceleration a -0.32g by a single cable. Determine: (a) the tension in the cable, (b) the net work done on the load, (c) the work done by the cable on the load, (d) the work done by gravity on the load, and (e) the final speed of the load assuming it started from rest. 2. A 1.60-m tall person lifts a 2.10-kg book from the...
Please show work!
A pulley of negligible mass is attached to a block weighing 504
N. A person uses the rope and pulley system illustrated in the
figure to lift the block at a constant velocity. The pulleys and
rope are all ideal.
F_G=____________ ?
A. Draw the free body diagram for the block. (Observe that three
are two rope segments pulling on the block.)
B. Apply Newton's first law and determine the tension in the
rope, and thus, the...
A Hooke's law spring constant k=7 220 N/m is compressed 12.0 cm from equilibrium using a 1 kg mass starts to move up on a frictionless inclined plane. Find the velocity immediately after it is released. Find its potential energy as it moves up 3 meters.
A spring has k = 94 N/m. Use a graph to determine the work needed to stretch it from x = 2.9 cm to x = 5.9 cm, where x is the displacement from its un stretched length. Express your answer using two significant figures. How much work is required to stop an electron (m=9.11×10−31kg) which is moving with a speed of 2.10×106 m/s ?
An object of mass M = 4.00 kg is attached to a spring with spring constant k = 1100 N/m whose unstretched length is L = 0.170 m , and whose far end is fixed to a shaft that is rotating with an angular speed of ω = 5.00 radians/s . Neglect gravity and assume that the mass also rotates with an angular speed of 5.00 radians/s. Given the angular speed of ω = 5.00 radians/s , find the radius...
An object of mass M = 4.00 kg is attached to a spring with spring constant k = 1100 N/m whose unstretched length is L = 0.170 m , and whose far end is fixed to a shaft that is rotating with an angular speed of ω = 5.00 radians/s . Neglect gravity and assume that the mass also rotates with an angular speed of 5.00 radians/s. Given the angular speed of ω = 5.00 radians/s , find the radius...
please solve step by step
Problem Statement: if k 1000 N/m, c 100 N-s/m, Mo-25 N.m and the dise parameters are given as: a. R-25 cm b. T(thickness) 2.5cm c. P (density) 7850 kg/m Conduct the following: 1. Derive the governing equation for the system shown in Fig.2. and find the natural and damping frequencies. 2. Draw the magnification factor Vs. r 3. Draw the phase angle Vs. r 4. Draw the response (x(t) using suitable computer software (eg. Matlab,...
1. Express the answer to the following problems using the correct number of significant figures a. 1.144 x 10 20.0 b. 4.77 x 101 -9.16 x 10 2. Express the Boltzmann constant (1.38065 x 102" kg m's K') in units of miles' lb yrK 3. Convert 9.997 x 101 g cm* into kg km 4. The Reynolds number is used to deseribe the conditions of particle settling If the Reynolds number is given by the following equation Where v, is...