Consider the 65.0 kg ice skater being pushed by two others shown in the figure. (a)Find the direction (in degrees) and m
Posted: Thu Jul 07, 2022 2:08 pm
Consider the 65.0 kg ice skater being pushed by two others shown in the figure.
(a)Find the direction (in degrees) and magnitude (in N) of Ftot, the total force exerted on her by the others, given that the magnitudes F1 and F2 are 26.4 N and 16.2 N, respectively.direction ° (counterclockwise from the direction of F1 is positive)magnitude N
(a)
Find the direction (in degrees) and magnitude (in N) of Ftot, the total force exerted on her by the others, given that the magnitudes F1 and F2 are 26.4 N and 16.2 N, respectively.direction ° (counterclockwise from the direction of F1 is positive)magnitude N
Find the direction (in degrees) and magnitude (in N) of Ftot, the total force exerted on her by the others, given that the magnitudes F1 and F2 are 26.4 N and 16.2 N, respectively.
direction ° (counterclockwise from the direction of F1 is positive)magnitude N
(b)What is her initial acceleration (in m/s2) if she is initially stationary and wearing steel-bladed skates that point in the direction of Ftot? (Assume the value of 𝜇s for steel on ice is 0.04.)
(b)
What is her initial acceleration (in m/s2) if she is initially stationary and wearing steel-bladed skates that point in the direction of Ftot? (Assume the value of 𝜇s for steel on ice is 0.04.)
What is her initial acceleration (in m/s2) if she is initially stationary and wearing steel-bladed skates that point in the direction of Ftot? (Assume the value of 𝜇s for steel on ice is 0.04.)
(c)What is her acceleration (in m/s2) assuming she is already moving in the direction of Ftot? Remember that friction is always in the opposite direction of motion or attempted motion between surfaces in contact. m/s2 (in the direction of Ftot)
(c)
What is her acceleration (in m/s2) assuming she is already moving in the direction of Ftot? Remember that friction is always in the opposite direction of motion or attempted motion between surfaces in contact. m/s2 (in the direction of Ftot)
What is her acceleration (in m/s2) assuming she is already moving in the direction of Ftot? Remember that friction is always in the opposite direction of motion or attempted motion between surfaces in contact.
m/s2 (in the direction of Ftot)
F₁ 1 F₂ Frot F₁ F₂ Free-body diagram F₂ F₁ 4 (a) Find the direction (in degrees) and magnitude (in N) of F, the total force exerted on her by the oth tot'
(a)Find the direction (in degrees) and magnitude (in N) of Ftot, the total force exerted on her by the others, given that the magnitudes F1 and F2 are 26.4 N and 16.2 N, respectively.direction ° (counterclockwise from the direction of F1 is positive)magnitude N
(a)
Find the direction (in degrees) and magnitude (in N) of Ftot, the total force exerted on her by the others, given that the magnitudes F1 and F2 are 26.4 N and 16.2 N, respectively.direction ° (counterclockwise from the direction of F1 is positive)magnitude N
Find the direction (in degrees) and magnitude (in N) of Ftot, the total force exerted on her by the others, given that the magnitudes F1 and F2 are 26.4 N and 16.2 N, respectively.
direction ° (counterclockwise from the direction of F1 is positive)magnitude N
(b)What is her initial acceleration (in m/s2) if she is initially stationary and wearing steel-bladed skates that point in the direction of Ftot? (Assume the value of 𝜇s for steel on ice is 0.04.)
(b)
What is her initial acceleration (in m/s2) if she is initially stationary and wearing steel-bladed skates that point in the direction of Ftot? (Assume the value of 𝜇s for steel on ice is 0.04.)
What is her initial acceleration (in m/s2) if she is initially stationary and wearing steel-bladed skates that point in the direction of Ftot? (Assume the value of 𝜇s for steel on ice is 0.04.)
(c)What is her acceleration (in m/s2) assuming she is already moving in the direction of Ftot? Remember that friction is always in the opposite direction of motion or attempted motion between surfaces in contact. m/s2 (in the direction of Ftot)
(c)
What is her acceleration (in m/s2) assuming she is already moving in the direction of Ftot? Remember that friction is always in the opposite direction of motion or attempted motion between surfaces in contact. m/s2 (in the direction of Ftot)
What is her acceleration (in m/s2) assuming she is already moving in the direction of Ftot? Remember that friction is always in the opposite direction of motion or attempted motion between surfaces in contact.
m/s2 (in the direction of Ftot)
- Consider The 65 0 Kg Ice Skater Being Pushed By Two Others Shown In The Figure A Find The Direction In Degrees And M 1 (33.83 KiB) Viewed 56 times
- Consider The 65 0 Kg Ice Skater Being Pushed By Two Others Shown In The Figure A Find The Direction In Degrees And M 2 (33.83 KiB) Viewed 56 times