Question 1 2 pts 80# 70# O-250 180# An eyebolt is in equilibrium at point A,...
1.A force vector, F, has components F angle, 0, of the force. 180 lbs and F, -60 lbs. Calculate the magnitude, F, and the direction 2. Calculate the resultant of the following 3 forces: F,- (100 N, 45 deg), F,- (80 N, 180 deg) and Fy-(140 N deg). In other words, calculate R, Ry, R, and 0R (Hint: Use the vector table to help with the procedure.) Vector Mag Dir х-сотропеnt у-соmponent Fi F3 R A 50 kg object is...
hree forces acting on a spherical mass M are depicted in the diagram below 60 O 20 0-20 -30-20-10 θ 10 20 30 40 50 60 70 80 Force, Horizontal-component (N) A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections Magnitude: Direction: Submit Answer Tries 0/6 B. When a fourth force is...
Three forces acting on a spherical mass M are depicted in the diagram below 60 2 50 40 30 20 10 -10 o .20 30 30-20-10 0 20 30 40 50 60 70 80 Force, Herizestal-component (N) A. Calculate the magnitude and direction (l.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections Magnitude Direction: B. When a fourth...
What force must be applied at point P to keep the structure shown in equilibrium? The weight of the structure is negligible. (Assume that the +x-axis is to the right and the +y-axis is up along the page. Give the magnitude in newtons and the direction in degrees counterclockwise from the +x-axis.) 9,760 N 1.0 m 2.0m 2.0m 4,880 N magnitude direction o counterclockwise from the +x-axis
Three forces acting on a spherical mass M are depicted in the diagram below 60 2 30 O 20 0-20 -30-20-10 θ 10 20 30 40 50 60 70 80 Force, Horizontal-component (N) A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections Magnitude: Direction: Submit Answer Tries 0/6 B. When a fourth...
Forces in equilibrium: 1) Given F1 = 1.47 N , where m1 = .150kg and (1) = 210 (degrees) Determine two more forces (magnitude and direction), which are at right angles to each other, but neither of them parallel to F(1), such that when they are applied, the system will be in equilibrium. 2) Given m1 = .140 kg at (1) = 80 (degrees), and m2 = .180 kg at (2) = 220 (degrees) Determine the masses required in order...
O descriptive O inferential D Question 2 1 pts Table below shows example of frequency and relative-frequency distribution. Relative Interval Frequency f 22-29 30-39 40-49 50-59 Total frequency 0.16 4 6 0.24 0.40 0.20 1.00 5 Find missing frequency for interval 40-49. O 8 O 10 O 12 O 15 Question 9 1 p Calculate sample variance for the following data collection: 10, 25, 28, 35 (when you calculate variance, divide by N-1 not by N) O 85 O 150...
show all work please 2. Not all hotdogs have the same calories. Table 31.6 contains calorie data on a random sample of Beef, Poultry, and Veggie dogs. (One extreme outlier for Veggie dogs was omitted from the data.) Does the mean calorie count differ depending on the type of hotdog? You first encountered this topic in Boxplots. Calories Beef Poultry Veggie 110 110 130 130 140 150 160 160 170 170 175 180 180 180 190 190 190 200 210...
please help 2. Problem solving (4 questions, 5 point each) 1. The demand and supply schedules for potato chips are in the table. Price (cents per bag) 50 60 70 Quantity Quantity demanded supplied (millions of bags a week) 160 130 150 140 140 130 160 120 110 180 150 80 90 170 100 a. draw a graph of the potato chip market and mark in the equilibrium price and quantity b. If the price is 60€ a bag, is...
Determine the reaction forces at A and B 50 N 50 N 2n 80 N 160 N 240 N 15 N 30 N 60 N We have studied static equilibrium of forces acting at a common point, and static equilibrium of forces not acting at a common point but involving moments. Now, we will study static equilibrium of entire objects, with the underlying assumption that the objects cannot move nor change shape. These objects are called rigid bodies. We will...