A⃗: 35 m at 15∘ B⃗: 16 m at 260∘ C⃗: 14 m at 135∘ Graphically...

Vector A⃗ has a magnitude of 25 m and makes an angle of 30∘ above the...

Vector A⃗ has a magnitude of 25 m and makes an angle of 30∘ above the positive x axis. Vector B⃗ has a magnitude of 13 m and is oriented 60∘ to the left of the y axis. A) Find the magnitude of A⃗ −B⃗ . B) Find the direction of A⃗ −B⃗ . C) Find the magnitude of 2A⃗ +B⃗ . D) Find the direction of 2A⃗ +B⃗ . E) Find the magnitude of −A⃗ +3B⃗ . F) Find...

The vector product of vectors A⃗  and B⃗  has magnitude 12.0 m2 and is in the +z-direction.Vector A⃗  has...

The vector product of vectors A⃗  and B⃗  has magnitude 12.0 m2 and is in the +z-direction.Vector A⃗  has magnitude 4.0 m and is in the −x-direction. Vector B⃗  has no x-component. Part A: What is the magnitude of vector B⃗ ? (I solved this question the answer is 3 and it's correct) Part B: What is the direction angle θ of vector B⃗  measured from the +y-direction to the +z-direction? (This is the part that I didn't get it correct)

Vector A⃗  has components Ax = 1.21 cm , Ay = 2.22 cm ; vector B⃗  has components...

Vector A⃗  has components Ax = 1.21 cm , Ay = 2.22 cm ; vector B⃗  has components Bx = 4.00 cm , By = -3.76 cm . 1)Part A Find the components of the vector sum A⃗ +B⃗ .? 2) Part B Find the magnitude of the vector sum A⃗ +B⃗ .? 3) Part C Find the counterclockwise angle the vector sum A⃗ +B⃗  makes with the +x axis.? 4) Part D Find the components of the vector difference B⃗ −A⃗ ....

The vector A⃗ A→ has a magnitude of 5.0 mm and makes an angle of 60...

The vector A⃗ A→ has a magnitude of 5.0 mm and makes an angle of 60 degrees above the positive x-axis. The vector B⃗ B→ has components Bx = 2.5 mm and By = -2.5 mm . Find the direction of A⃗ −B⃗ A→−B→, relative to the positive x-axis. 85 degrees -14 degrees 90 degrees 20 degrees

A. Find the direction of vector A⃗ =( 26 m )x^+( -9.0 m )y^. B. Find...

A. Find the direction of vector A⃗ =( 26 m )x^+( -9.0 m )y^. B. Find the magnitude of vector A⃗ =( 26 m )x^+( -9.0 m )y^. C. Find the direction of vector B⃗ =( 4.5 m )x^+( 19 m )y^. D. Find the magnitude of vector B⃗ =( 4.5 m )x^+( 19 m )y^. E.Find the direction of vector A⃗ +B⃗ . F. Find the magnitude of vector A⃗ +B⃗ .

PART A: What is the magnitude of B⃗ ? PART B: What is the direction of...

PART A: What is the magnitude of B⃗ ? PART B: What is the direction of B⃗ ? Give your answer as an angle measured ccw from the +x-axis. A proton moving in a uniform magnetic field with v⃗1=1.14×106ı^ m/s experiences force F⃗1=1.80×10-16 k^ N. A second proton with v⃗2=2.50×106ȷ^ m/s experiences F⃗2=−3.56×10-16 k^ N in the same field.

The diagram below shows a block of mass m=2.00kgm=2.00kg on a frictionless horizontal surface, as seen...

The diagram below shows a block of mass m=2.00kgm=2.00kg on a frictionless horizontal surface, as seen from above. Three forces of magnitudes F1=4.00NF1=4.00N, F2=6.00NF2=6.00N, and F3=8.00NF3=8.00N are applied to the block, initially at rest on the surface, at angles shown on the diagram. (Figure 1) In this problem, you will determine the resultant (total) force vector from the combination of the three individual force vectors. All angles should be measured counterclockwise from the positive x axis (i.e., all angles are...

a) At a certain instant, a rotating turbine wheel of radius R has angular speed ω...

a) At a certain instant, a rotating turbine wheel of radius R has angular speed ω (measured in rad/s). What must be the magnitude α of its angular acceleration (measured in rad/s2) at this instant if the acceleration vector a⃗ of a point on the rim of the wheel makes an angle of exactly 30∘ with the velocity vector v⃗ of that point? Express your answer in terms of some or all of the variables R and ω. b) At...

Consider the following vectors d1 : d1 = (23.0 i + 32.0 j) m d2 :...

Consider the following vectors d1 : d1 = (23.0 i + 32.0 j) m d2 : |d2| = 21.0 m and d2 makes an angle of 149° with the positive x-axis. Find the following quantities: A. The magnitude of d1 and the angle θ between d1 and the positive x-axis. B. The resultant vector d = d1 + d2 in unit vector notation. C. The scalar product between d1 and d2. D. The vector product between d1 and d2. E....

Four forces are acting on a point mass located at the origin of a two-dimensional cartesian...

Four forces are acting on a point mass located at the origin of a two-dimensional cartesian coordinate system. The first force has a magnitude of 10.0 N and makes a 30° angle with the positive x-axis. The second force has a magnitude of 15.0 N and makes a 135° angle with the positive x-axis. The third force has a magnitude of 20.0 N and makes an angle of 240° with the positive x-axis. The fourth force has a magnitude of...