Two forces are applied to a car in an effort to move it, as shown in the figure below. (Let F1 = 415 N and F2 = 375 N. Assume up and to the right are in the positive directions.)
(a) What is the resultant vector of these two forces?
(b) If the car has a mass of 3,000 kg, what acceleration does it have?
Two forces are applied to a car in an effort to move it, as shown in the figure below. (Let F1 = 415 N and F2 = 375 N. Assume up and to the right are in the positive directions.)(a) What is the resultant vector of these two forces? magnitude _______ direction _______ to the right of the forward direction (b) If the car has a mass of 3,000 kg, what acceleration does it have? Ignore friction. _______ m/s?
Two forces are applied to a car in an effort to move it, as shown in the figure below. (Let f1= 400n and f2= 367n. Assume up and to the right are in the positive directions. What is the resultant vector of these two forces? Magnitude= Direction= (To the right of the forward direction) If the car has a mass of 3,000 kg, what acceleration does it have? Ignore friction.
Two forces are applied to a car in an effort to move it, as shown in the figure below. (Let Fi-41S N and 5-375 N. Assume up and to the rent are in the postne directions.) 10° F, (a) What is the resultant vector of these two forces? magnitude direction o to the right of the forward direction (b) If the car has a mass of 3,000 kg, what acceleration does it have? Ignore friction m/s?
Two forces are applied to a car in an effort to move it, as shown in the following figure, where F1=439 N and F2 = 399 N. (Assume up and to the right as positive directions.) What is the sum of these two forces acting on the car? magnitude _______ direction _______ ° to the right of the forward direction
2/3 points Previous Answers SERCP9 4.P.012. Two forces are applied to a car in an effort to move it, as shown in the following figure, where F, 443 Nand, - 363 N. (Assume up and to the right as positive directions.) (a) What is the resultant of these two forces? magnitude 757 886 N direction 2 X to the right of the forward direction (1) if the car has a mass of 3,000 kg, what acceleration does it have? Ignore...
1. Two forces are applied to a car in an effort to move it, as shown in the Figure below. (a) What is the resultant magnitude and direction of these two forces? (h) If the car has a mass of 3500 kg. what magnitude acceleration does it have? Ignore friction 10 450 M 400 N 2. A 40.0 kg wagon is towed up a hill inclined at 17.5° with respect to the horizontal. The tow rope is parallel to the...
Three forces of magnitudes F1=4.0N, F2=6.0N, and F3=8.0N are applied to a block of mass m=2.0kg, initially at rest, at angles shown on the diagram. (Figure 1) In this problem, you will determine the resultant (net) force by combining the three individual force vectors. All angles should be measured counterclockwise from the positive x axis (i.e., all angles are positive).Part A: Calculate the magnitude of the resultant force F? r=F? 1+F? 2+F? 3 acting on the block.Express the magnitude of...
A 10 kg object on a frictionless table is subjected to two horizontal forces, F1 and F2, with magnitudes F1 = 22 N and F2 = 38 N, as shown in Figure 4-28. 10kg 30 Figure 4-28 (a) Find the acceleration a of the object (0.3 (b) A third force F3 is applied so that the object is in static equilibrium. Find F3 x i)m/s2 i1.64545 X (-41 x i) N |-32.909 A 10 kg object on a frictionless table...
Three forces of magnitudes F1=4.0N, F2=6.0N, and F3=8.0N are applied to a block of mass m=2.0kg, initially at rest, at angles shown on the diagram. (Figure 1)In this problem, you will determine the resultant (net) force by combining the three individual force vectors. All angles should be measured counterclockwise from the positive x axis (i.e., all angles are positive).Part ACalculate the magnitude of the resultant force \(\vec{F}_{\mathrm{r}}=\vec{F}_{1}+\vec{F}_{2}+\vec{F}_{3}\) acting on the block.Part BWhat angle does \(\vec{F}_{\mathrm{r}}\) make with the positive \(x\)...